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	751.	No cover image available Impact Of Zinc Supplementation On Growth Performance Carcass Traits And Immune Response In Broilers by Muhammad Ali \| Prof. Dr. Anjum Khalique \| Dr. Muhammad Afzal Rashid \| Prof. Dr. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2014Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2177,T] (1). Place hold Add to cart (remove)
	752.	No cover image available Evaluation Of Antidiabetic Effects Of Momordica Charantia On Microarchetecture Of Pancreas And Blood Biochemistey in Alloxan-Induced Diabetic Rats by Saad Khaliq \| Dr. Saima Masood \| Dr. Hafsa Zaneb \| Dr. Muhammad Shahbaz Yousaf. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2014Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2178,T] (1). Place hold Add to cart (remove)
	753.	No cover image available Molecular Epidemiological Analysis Of Pbi-F2 Protein Of Influenza A Virus Reported From Pakistan by Muhammad Usman Basharat \| Dr. Muhammad Hassan Mushtaq \| Dr. Aqeel \| Dr. Mamoona Chaudhry. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2014Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2179,T] (1). Place hold Add to cart (remove)
	754.	No cover image available Detection Of Falciparum Malaria And Its Control Under Local Climatic Conditions by Muhammad Oneeb \| Prof. Dr. Azhar Maqbool \| Dr. Muhammad Lateef \| Prof. Dr. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2013Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2180,T] (1). Place hold Add to cart (remove)
	755.	No cover image available Development Of Prebiotic Galacto - Oligosaccharide Enriched Buttermilk And Evaluation Of Its Storage Stability by Hafsa Tahir (2012-VA-584) \| Dr. Sanaullah Iqbal \| Dr. Muhammad Nasir \| Dr. Muhammad Nawaz. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2014Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2181,T] (1). Place hold Add to cart (remove)
	756.	No cover image available A Clinico - Hematological Study On Hepatic Regeneration After Variable Degrees Of Resections In Rabbits by Muhammad Babar Saleem (2005-VA-72) \| Prof. Dr. Muhammad Arif Khan \| Dr. Hafsa Zaneb \| Ms. Ayesha Safdar \| Faculty of Veterinary Sciences. Material type: Book; Format: print Publisher: 2014Dissertation note: Liver is the largest visceral organ in the body and has a paramount importance. Its multi-functional abilities make it absolutely necessary for survival. It performs numerous functions in a living organism and plays its role in various physiological and biochemical regulatory processes in the body. It is also the only organ that has the capability to undergo the phenomenon of regeneration in case of cellular injury induced by chemicals or surgery. According to Craige (1948) Liver is the largest gland of the body. It is an extension of the gastro-intestinal track and connects with GIT to the common bile duct.It has two surfaces. The anterior or dorsal surface is convex while the posterior surface is concave and lies over the stomach. Liver is thickened in its dorsal portion and tappers to a thin ventral margin. The liver is incompletely divided into a right and a left liver lobe, each of which have anterior and posterior lobules. The right posterior lobule lies closely to the dorsal body wall and it accommodates right kidney in a depression called renal fossa. The gall bladder is a thin walled pouch located in a deep depression on the ventral surface of right anterior lobule. The quadrate lobe extends from the right lobe and is usually notched on its medial margin. The caudate lobe is small and well separated. The portal fissure is a large depression filled by the portal vein and it also contains some branches of hepatic artery. The liver is held in place by four ligaments namely falciform ligament, round ligament, coronary ligament and left triangular ligament. According to Borley & Achan (2005) Liver plays a key role in several regulatory processes in an organism. It is involved in various metabolic pathways comprising variable interactions with proteins, carbohydrates and fats. Liver is the main site for gluconeogenesis, converts galactose and fructose into simple sugars (glucose) and stores complex carbohydrates (glycogen).It aids in the production of different types of proteins and has a role in the formation of urea. Numerous types of fats like phospholipids, cholesterol and lipoproteins are synthesized in the liver. Liver also uses different carbohydrates and proteins to form certain fats. Liver serves as a vault for the storage of several vitamins (A, B2 and D) and iron. It helps in the complex process of coagulation by aiding in the synthesis of several important coagulation factors including prothrombin, protein C, and factors VII, IX and X.Several hormones including oestrogen, aldosterone and cortisol are metabolized in the liver. It is involved in the metabolism of a number of drugs and also has a key role in the production and excretion of bile. In fetal life, haematopoiesis is one of the key functions which is performed by liver. Liver resectioning is a technique employed for correction of numerous ailments or for the purpose of experimental study. Diseases such as tumorous growths on the liver, hepatic necrosis, cyst formation, hepatic abscess, hepatic lobe torsion and numerous others require the removal of the affected part of the liver(Martin et al. 2003; Pignon et al. 2013). The remaining liver usually recovers by regeneration through hyperplasia and hypertrophy of healthy cells of the un-affected part of the liver (Palmes and Spiegel, 2004). For experimental reasons, where different aspects of liver regeneration process are to be studied, liver resectioning technique is employed (Mao et al. 2014; Fausto et al. 2012). Numerous studies have been done to see the regeneration rate of liver in different species. In rats it has been noticed that liver can regenerate to its original size after two-third hepatectomy in only five to seven days (Mao et al. 2014).Another author states the recovery to occur in less than two weeks in rodents (Gilgenkrantz and Hortet, 2011). In humans it has been shown that resectioning up to 50 percent has resulted in complete regeneration of liver mass in only a period of two weeks (Häussinger, 2011). Rabbits being small laboratory animals with comparative ease of handling have been used extensively for research purposes. Regeneration has been studied in rabbits post chemical insult on liver or through portal branch ligations (Palmes and Spiegel, 2004). As opposed to general perception, Carpenter (2003) states that the rabbits fall under the category of rodents, they in actuality are lagomorphs. Two families composed of twelve genera and eighty-one species fall under the umbrella of order lagomorpha. They are cosmopolitan in their distribution. The main difference between rodents and lagomorphs is the presence of two pairs of upper incisors in the former group, whereas the later have only one pair of upper incisors. Despite having a great degree of similarity which these two groups share together, they are not thought to be closely associated. The animals of both the categories evolved into nine creatures separately and their similar dental patterns resulted from parallel evolution. All legomorphs consume foliage and practice caprophagy. All lagomorphs are blessed with acute tactile and olfactory senses with a considerable long-haired fluffy body coat. Lagomorphs have big side-to-side set eyes giving them a broader circular vision. Testes are in the scrotum in front of the penis. Baculum is absent in males. Females bear two to five pairs of mammary glands. Deficiency has been observed in terms of study of liver regeneration when liver resectioning is performed. The present study aims to focus on this aspect of research on soft tissue, which would enhance our understanding of liver regeneration and its rate in this specie. Availability: Items available for loan: UVAS Library [Call number: 2182,T] (1). Place hold Add to cart (remove)
	757.	No cover image available Effect Of Lactic Acid Hot Water And Tap Water Spraying On Microbiological Load And Shelf Life Of Beef Carcasses by Muhammad Usman Badar \| Dr. Muhammad Nasir \| Dr. Zubair Farooq \| Dr.Nasir Ahmed. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2014Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2184,T] (1). Place hold Add to cart (remove)
	758.	No cover image available The Effects Of Xylazin-Butorphenol And Detomidine-Butorphenol On Clinico-Biochemical Parameters During Castration in Dog by Nadir Hussain (2006-VA-07) \| Prof. Dr. Muhammad Arif Khan \| Dr. Shehla Gul Bukhari \| Prof. Dr. Muhammad Sarwar Khan \| Faculty of Veterinary Sciences. Material type: Book; Format: print Publisher: 2014Dissertation note: Anesthesia is a reversible process and derived from Greek word “anaisthaesia” meaning “insensibility” and used to desensitize the whole or any part of the body. Anesthesia is classified by method of administration i.e. intramuscular, inhalational and intravenous. Injectable anesthesia includes Propofol, Diazepam, Acepromazine, Medetomidine, Xylazine and Ketamine. Anesthetic agent can be used alone or in combinations (Gonzalez et al. 2003). The purpose of Anesthesia is to produce a convenient, safe, effective, and economical means of facilitating surgical procedures while minimizing stress, pain and discomfort and adverse side effects. There are many routes of administration of anesthesia; in intravenous route, the onset of action is immediate. Peak effect is rapidly obtained, duration of action is short, and effects are more intense/ profound than other routes.Many combinations of anesthesia are in use in dogs for different surgery xylazine (0.4 mg/kg IV) combination with butorpjanol (0.2 mg/kg IV), xylazine (0.4 mg/kg IV) combination with oxymorphone (0.05mg/kg IV) , xylazine (0.4 mg/kb IV) combine with morphine (0.25mg/kg) , Medetomidine (5 to 15 ug/kg combine with butophanol (0.2 mg/kg IV), Medetomidine (5 to 15 ug/kg IV) combine with oxymorphone (o.05 mg/kg) Xylazine (0.4mg/kg) combine with Ketamine (5 to 10 mg/kg IV) acepromazine (0.05 to 0.2mg/kg IV or SQ) in combination with morphine (0.4 to 0.8mg/kg IV) and diazepam or midazolam(0.2 mg/kg IV) with hydromorphone or oxymorphone( 0.1 to 0.2 mg/kg IV) use in dog and cat (Greene 1999). Detomidine is a selective α2-adrenoceptor agonist with useful sedative, analgesic and muscle relaxation properties and is widely used as a tranquilizing or pre-anaesthetic medication in veterinary medicine But it induces cardiovascular side-effects such as hypertension, hypotension, bradycardia and dysrhythmia.detomidine. It produces prolonged and intense analgesia. Nature of the analgesic effect appears to be wide, producing a reduced response to be a secondary result of the central nervous system experimental stimulation and exhibiting a clinical effect in the horse with colic. Detomidine can be used as a safe and effective pre anaesthetic resulting in smooth induction and recovery (EL-Kammar et al. 2014). Xylazine Hcl has been widely used as a preanesthetic drug and for immobilizing dogs for diagnostic procedures (Short 1987).Xylazine is the shortest acting alpha2-adrenergic agonist..A problem with alpha2-adrenergic agonists is that they may respond suddenly to stimulation, especially to touch. The combination of opioid drugs with the alpha2-adrenergic agonists appears to reduce such sudden reactions and a synergistic effect regarding sedation and antinociception has been suggested. Additionally, all alpha2-adrenergic agonists have a dose-dependent effect on cardiovascular function. By adding an opioid drug, dose requirements of alpha2-adrenergic agonists may be reduced and cardiopulmonary function improved. The addition of opioids does not further impair cardiovascular function.The combination of xylazine and butorphanol at the doses generally used in clinical practice produces minimal and transient haemodynamic effects and no significant respiratory depression. There is no ‘blinded’ randomized crossover study regarding the xylazine sparing effects of butorphanol on sedation of horses. There are limited reports on the respiratory effects of butorphanol alone or in combination with the α2-agonist xylazine in horses, but the effects of the combination on pulmonary gas exchange have not been clarified (Ringer et al. 2012). Butorphanol is an opioid agonist-antagonist with good analgesic effects. Butorphanol is used in veterinary medicine as pain reliever and cough suppressant. It induces only mild sedation and has minimum adverse effects to the cardiovascular system. It may cause mild lowering of the heart rate and arterial pressure or slight respiratory depression. It exerts a depressive action on the respiratory system. It should not use in patient with liver disease because it cannot be eliminated and may accumulated to toxic level (Raušer and Lexmaulova, 2002).It is believed to be more effective against visceral rather than somatic pain. The antagonist property towards μ-receptors results in a ceiling analgesic effect with increasing doses. However in dogs doses between 0•2 and 0•8 mg/kg have been reported to provide visceral analgesia in vivo .Butorphanol is a dose-related respiratory depressant and causes small decreases in arterial blood pressure and heart rate (Vettorato and Bacco 2011). Castration is indicated for reproductive neutering, modification of behavior patterns, testicular neoplasia, severe testicular or scrotal trauma or injury, refractory orchitis, benign prostatic hyperplasia, perianal gland adenoma, perineal hernia, and scrotal urethrostomy in dogs. There is no specific anesthetic method for castration. Routinely castration surgery can be performed under general anesthesia or local anesthesia (Kim et al. 2004). Unlike other laboratory animals that are commonly used forresearch purpose, non-human primates and dogs are also used for research work. Their use in the biological researchrequires special considerations, regarding their care and housing, and more specifically their handling and restraining. Since non-human primates and dogs present special hazards to handlers, particularlybecause of the danger of bites and zoonotic infections (Fortman et al. 2001). Deaths due to anesthesia are lesser in dogs (1 in 601) than rabbits (1 in 72) that are the third most commonly anaesthetized pet animal in the United Kingdom (Brodbelt et al. 2005). Availability: Items available for loan: UVAS Library [Call number: 2185,T] (1). Place hold Add to cart (remove)
	759.	No cover image available A Clinical Study On The Sonographic Characterization Of Acute And Chronic Hepatitis In Pet Dogs In Lahore by Imran hussain (2012-VA-591) \| Dr. Shehla Gull Bokhari \| Dr. Muhammad Avais \| Dr. Sadaf Imran. Material type: Book; Format: print Publisher: 2014Dissertation note: Dogs are amicably kept as a pet all over the world. Diversity in cultural trends in Pakistan is paving way towards increasing awareness of the society with regards to a promising humananimal bond. Hence, the tendency of people in metropolitan cities, such as Lahore, in keeping dogs and cats as pets, has increased dramatically over the years. Not only do people keep pets, rather also seek expert professional care in treatment of their animals. Liver is a major organ of body located in the cranial abdomen below diaphragm. It produces major plasma proteins, clotting factors and metabolizes carbohydrates, proteins and lipid molecules. Besides, it also detoxifies many toxic metabolites into soluble and extractable products. It also acts as storage for iron, glycogen and some other compounds. It also plays role in eliminating and excretion of worn-out blood cells in the form of bile. Due to its major functions it is much prone to damage and its mutual sickness is reported (Adam, 2003). Hemostatic anomalies in liver diseases are mostly found in dogs and increased prothrombin time (PT) and activated partial thromboplastin time (APTT). In hepatic disease 93% dogs had one of the abnormal results of PT and APTT (Badylak et al. 1983). Conditions as well as low or incomplete blood supply or shock damage, blockage of bile, long-lasting liver sickness, portovascular variances, toxin produce inside the bacteria wall, and resistant dysfunction altogether add toward hepatic defenselessness to infectivity also change the role of the reticuloendothelial structure (Center et al.2006). In the United Kingdom (UK), chronic hepatitis (CH) twelve percent was found during postmortem of the dog (Watson et al. 2010). Acute hepatitis (AH) and CH can cause toward lethal liver dysfunction that can lead to inadequate otherwise weakened liver restoration. Restoration take place through double ------------------------------------------------------------------------------------------------------Introduction 2 resources, specifically reproduction of developed hepatocytes and in the case of held back hepatocytic replication, by production of the native stem cell precursor cell population in liver diseases (Roskams et al. 2004; Santoni-Rugiu et al. 2005; Katoonizadeh et al. 2006). Liver play major role in the majority of metabolism, so liver infections can affect the purpose of further tissues. Most common effect stands going on the brain and excretory system (Wettstein et al. 2003; Hilgard and Gerken, 2004). Hyperfibrinolysis can be seen in cases of later hepatic liver infection and cirrhosis because of reduced thrombin-activatable fibrinolysis inhibitor (TAFI) (Van Thiel et al. 2001; Colucci et al. 2003). The major reasons of sickness and death in dogs are cirrhosis and long-lasting liver problem (Klein et al. 2010). The liver size is measured by a simple method through the ultrasonography. The measurements were taken in both planes transverse and longitudinal scanned. There was good relation in both measurements. Through this study it was concluded that liver size has no relationship in breed or size of the dog. This study also showed that liver size easily measure through ultrasonography (Barr, 2008). Infectious canine hepatitis (ICH) is a universal viral disease caused by canine adenovirus-1 (CAd V-1) (Decaro et al. 2007). Young dogs under the age of 2 years have more mortality rate (Akerstedt et al., 2010; Thompson et al. 2010). ICH has three clinical forms that are Mild, acute and per acute (Stalker and Hayes, 2007). Canine adenovirus-1 has resemblance for vascular endothelium, mesothelium and hepatic parenchyma and the main pathological characters of ICH are edema, hemorrhages and focal necrosis (Chouinard et al. 1998). There is variation in the incubation period of hepatitis. The incubation period of infectious canine hepatitis is 4-7 days. Infectious canine hepatitis can increase temperature, despair, loss of starvation, sneezing, edema, excretory problem. But in severe cases animal has pale mucous membrane increase liver size and vomiting. Severe cases ------------------------------------------------------------------------------------------------------Introduction 3 will develop bleeding disorders, which can cause hematomas to form in the mouth (Sanchez- Cordon et al., 2002; Greene, 2006). Clinical diagnosis may be based on the clinical and pathological findings, which may include moderate to severe leukopenia, neutropenia, lymphopenia and thrombocytopenia. Serum alanine aminotransferase and alkaline phosphatase activities may be increased. Coagulation parameters, PT and PTT are variably affected. Proteinuria (albuminuria) as a reflection of the renal damage caused by the virus can usually be detected (Sellon, 2005; Greene, 2006). Clinical signs in pets vary from ill to asymptomatic. These may include anorexia, vomiting, weakness, depression and poor hair coat. Production of albumin in the body takes place only in liver, so liver problems cause low albumin production in body. It leads to hypoalbuminemia (Bunch, 2003). During chronic liver disease liver enzymes value may be normal or decrease. For example in cirrhosis the hepatocytes start to die and cannot make liver enzyme. The liver has capacity up to 30 times the usual level for the processing of bilirubin. At two to three times normal total bilirubin levels Jaundice can be noted. At 0.6 to 1.0 mg/dl icteric serum and bilirubinuria can be identified (Richter, 2004). In chronic hepatitis the liver enzymes ALT/AST with change ALP/GGT rises. With progressing disease bilirubin rises and albumin levels will drop. Chronic hepatitis causes the serum bile acids abnormal level. In this study dogs with chronic hepatitis all cases assessed had atypical bile acid concentrations. Acquired shunting or advanced liver insufficiency leads to increased blood ammonia concentrations (Strombeck, 1988). In study it was confirmed that coagulation anomalies are more common in dogs in case of chronic hepatitis and cirrhosis that indicated significantly lesser platelet counts (Prins et al.2010). In a study radiograph and ultrasonography was performed that reveal increase the liver size parenchymal heterogeneity hyperechoic parenchyma. Renal parenchyma looked normal in ------------------------------------------------------------------------------------------------------Introduction 4 both radiograph and ultrasonography (Langlois et al. 2013). Sonographic finding in acute hepatitis liver size was increased and parenchymal echogenicity was decrease. Liver margin were rounded due to hepatomegaly (Resende et al.2011; Hughes et al. 1995; Barr F. 1992; Lamb et al. 1995). Sonographic finding in chronic hepatitis seen that increased hepatic parenchyma echogenicity and liver size decreased. Gall bladder size was increased and irregular contour also seen. In chronic hepatitis portal liver margin less distinct and reduced distal visualization (Stowater et al. 1990; Diaz Espineira et al 1999; Hill et al. 2000; Partington et al.1995; Yeager 1991; Johnson 1987). Availability: Items available for loan: UVAS Library [Call number: 2187,T] (1). Place hold Add to cart (remove)
	760.	No cover image available Epidemiology Zoonotic Potential Haematology Amd Chemotherapy Of Sarcoptic Mange In Camel In Punjab by Muhammad Irfan Zahid (2011-VA-800 \| Prof. Dr. Azhar Maqbool \| Prof. Dr. Muhammad Sarwar Khan \| Prof. Dr.Shazia Anjum \| Prof. Dr. Kamran Ashraf. Material type: Book; Format: print ; Literary form: not fiction Publisher: 2015Dissertation note: A camel is a very hardy ruminant animal, which can survive under harsh climatic conditions very effectively by utilizing the marginal areas with excellent capabilities and produce under such conditions (Hjort and Hussein, 1986; Abbas and Tilley, 1990). Camel is an important animal as it is well adopted in unique manners in the hot, arid and semi-arid environments (Schwartz, 1992). It can survive without water and food for many days and this unique ability of camel makes it an ideal for such harsh conditions for which it is also commonly known as “The Desert Ship”. In spite of the fact that camel is an important member of a group of animals which produces food for human consumption in the shape of milk and meat, yet it is the most neglected one in the field of scientific research. It may be due to the fact that camel belongs to such areas of the world which are arid, semi-arid or rain fed in nature, having harsh climatic conditions, where poor nutrition and poor management are the major issues (Sohail, 1983). It is an established fact that diseases originating from parasites lead to the main health hazard issues in animals. These parasites survive at the expense of the host animals causing lot of health problems, like skin irritation, anemia leading to weakness and debility. Some of the parasites have zoonotic importance and may become a source for the transfer of many contagious diseases like scabies to the human beings (Dominguez et al. 1978). McClain et al. 2009, observed the scabies as a major health problem globally both for humans and animal population. Sarcoptes scabiei is an ectoparasite which is a cause of scabies, a skin problem in the human beings worldwide and the similar species of mites do also produce a similar type of disease in a large variety of wild and domesticated mammals (Pence and Ueckermann, 2002; Fitzgerald et al. 2004). Fain, 1978, reported that more than fifteen (15) different species of Sarcoptes scabiei morphologically and genetically distinct from each other have been identified in different hosts. Introduction 2 Sarcoptic mange is the second important problematic disease of camel after Trypanosomiasis (Nayel and Abu-Samra, 1986). Scabies caused by Sarcoptes scabiei var cameli is a serious & highly contagious skin problem and also economically important disease of the camels (Pegram and Higgins, 1992). Camels, which are reared with deficient nutrition, poor management and under unhygienic conditions are mostly affected by this disease (Kumar et al. 1992). A large group of people and communities living in arid diverse ecozones in the entire world, particularly in harsh climates earns their livelihoods by depending on camels. This dependence may spread to the utilization of camel milk, meat, wool and leather besides its use in transportation, riding and sports (Wilson, 1984; Snow et al. 1992). In Pakistan camels are also raised by the people for meat, milk, riding, transportation and sports purposes in the deserts, semi desert & rain-fed / warm areas of the entire country being a hardy animal as it can tolerate easily the rugged climate as well as extremes of temperatures of such areas. The natural harsh and adverse climatic conditions, particularly during long dry seasons lead to a paucity of feeding regimes resultantly the camels raised in such areas are subjected to stress conditions which lower their resistance and make them easily vulnerable to diseases (Abbas et al. 1993; Agab, 1993). Abbas & Tilley, 1990; Saint-Martin et al. 1992; Abbas and Agab, 2002; Pathak and Chhabra, 2010; while reviewing the parasites & parasitic diseases of camel population in India were of the opinion that Sarcoptic mange is a serious, debilitating, dreaded and widely prevalent disease of camels in India. Besides other infectious diseases of bacterial and viral origin, camels are exposed to a wide range of internal & external parasitic infestations. Amongst other so many external parasites to which camels are exposed, the Sarcoptic mange is recognized to be one of the most Introduction 3 serious and damaging disease. This disease is caused by a mite known as Sarcoptes scabiei var cameli which belongs to genus Camelus of SARCOPTIDAE family in Veterinary Entomology. It is an extremely pruritic, contagious and debilitating skin disease which is very frequently and sudden in onset. It is also ranked as one of the most serious and important disease of the camels. Sarcoptic mange infestation is very common in the areas of thin skin, the head, neck, flanks, medial aspect of thighs or inguinal region, mammary glands and prepuce. The head is usually affected very rapidly as the animal uses its teeth for scratching the affected areas. Besides linking the occurrence of the disease with poor camel management, malnutrition and contact with infected objects, the stray & infected camels also often become a focus of infecting the healthy animals when mingling with them particularly at watering places for drinking purpose (Richard, 1987; Abdel-Rehman et al. 2001). Sarcoptes is a burrowing mite as it penetrates deeply through the skin surface of the infected camel. This burrowing of mites in the skin helps these parasites lead to intense pruritus and exudative dermatitis. In pruritus, mites penetrate deep into muscular areas, damaging the flesh and lowering the quality of meat. The early inflammatory reaction of the host body towards the mites becomes evident in the shape of small popular elevations, invasion and injuries leading to formation of hairless areas, scaly crust formation or scabs on the affected parts and the skin become dark and thickened. Skin of mangy camel show hemorrhages, and subcutaneous odema after the development of fissures in the underlying epidermis (Kumar et al. 1992; Amer et al. 2006). The fertilized female mites create winding burrows or tunnels in the upper layers of the epidermis of the skin of the host animal and feeding on the serous exudate, a liquid oozing from the damaged tissues. The female mites lay about 40-50 fertilized eggs in these tunnels which Introduction 4 hatch in 3-5 days into a six legged larvae. These larvae immediately crawl to the surface and burrow themselves in the superficial layers of the skin and create small molting pockets. In these molting pockets, the larvae molt to next stages of nymph and adult. The adult male then emerges and seeks a female either in the molting pocket or on the surface of skin. After fertilization the female produces new tunnels, either de novo or, by extension, of the molting pockets, lays eggs in these tunnels and a new life cycle starts. The entire life cycle of Sarcoptic mange is completed in 17-21 days. New hosts can be infected through direct transmission by contact between the animals, presumably from larvae, nymph or adult mites, which are commonly present on the skin surface of the infected animal. Indirect transmission of infestation can also take place through the objects or fomites having mange infection, which come into contact with the affected camel, such as harnesses, blankets, baggage tack, tents and tree trunks (Richards, 1987). The pruritus increases as the mites penetrate deeper in the skin (Al-Rawashdeh et al. 2000, Driot et al. 2011, Bekele et al. 2012). Based on the rate of infection camels can be seriously disturbed by the Sarcoptic infestation as they may stop grazing which can lead to a rapid fall in milk production, and deterioration of health condition. With the increase in the irritation due to scabies, the camel rubs, bites and scratches the affected areas in an attempt to reduce the itchiness. Due to rubbing, biting or scratching, the mites move to the periphery affecting the healthy tissues and resultantly affected area spreads. As the disease prolongs, the skin becomes excoriated, leading to hair loss and the development of scabs. These scabs in turn may be rubbed away and a red surface developed. The animal becomes restless due to severe Sarcoptic mange infestation and involvement of most of the body surface. If the diseased animal is not treated in time, the animal loses its health condition, become emaciated and within two, three weeks the acute stage of Introduction 5 disease may give way to more chronic state (Gorakh et al. 2000, Abubakar et al. 2002, Driot et al. 2011). Sarcoptic mites rarely survive long off the host under natural conditions. A continuous direct contact of animal keepers with their camels can also lead to transmission of diseased condition in human beings which is termed as pseudo scabies. Transmission of infection from camel to man usually takes place during milking, handling or riding. The main symptoms of pseudo scabies can therefore be seen in the inter digital spaces of the hands, on the wrists, forearms, the elbows, the axillary folds and inner side of the thighs. Once a herd is infected with Sarcoptic mange, continuous reinfection of the disease occurs (Schillinger 1987, Singh & Veer 2005, Premalatha et al. 2010). Sarcoptic mange is usually considered to be a seasonal disease and is often reported severe during the winter months as in cold weather the disease had an acute course. However, there is some evidence that in some countries hot weather predisposes to acute outbreaks of camel mange and in the cooler, winter season the rate of mange infestations are at the lowest. In the summer the activity of the mite seems to decline or disease becomes chronic. Dietary intake is an important factor in mange infestation. Nomadic camels on a low nutrition plan, probably carrying heavy worm burdens in hot desert conditions are likely, therefore, to be highly prone to Sarcoptes at this time (Dinka et al, 2010). During such periods of great activity, the mites are readily transmissible from one animal to other animals (Richards, 1987, Banaja & Ghandour, 1994, Tefera & Gebreah, 2001). Mange can easily be diagnosed clinically from the occurrence of pruritus, depilation, alopecia, thickened skin, folds around the joints and encrusted plaques being the main characteristics of this parasitosis. In order to control this zoonotic disease, it is essential to treat Introduction 6 both camel and man along with effective checks over other predisposing factors of the disease such as hygiene and nutritional requirements of the animals. The skin diseases like the scabies both in human beings and animals are being treated with a variety of allopathic drugs now a day, but the role of herbal plants in use since centuries in different shapes cannot be ignored at all, especially in the rural lifestyle. Further with the continuous use of different acaricidal drugs, the issue of resistance development has come across as a challenge for the researchers to find some alternatives for the purpose. Accordingly the research work on the use of traditional herbal medicines is gaining attention day by day. Although there are many reports and studies regarding the prevalence of Sarcoptic mange in camel from different parts of the world, only few preliminary reports are available for Pakistan and none of them provide detailed epidemiology of Sarcoptic mange and its effect on host health. Therefore, keeping in view the importance of the mange problem in camel population of the country, the present project was designed to determine the prevalence of Sarcoptic mange infestation, factors in its occurrence its zoonotic importance, effect on blood physiology and different treatment options in the camel population of Punjab, province in Pakistan. Availability: Items available for loan: UVAS Library [Call number: 2190,T] (1). Place hold Add to cart (remove)
	761.	No cover image available Comprehensive Retrospective Study Of Dog Bites In Lahore Dr. Shakera Sadiq Gill by Toraiz Ahmed (2012-VA-902) \| Dr. Nusrat Nauman \| Dr. Muhammad Hassan Mushtaq \| Mr. Tariq Mahmood \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Dog may be the best friend of humans but still they are animals and can bite. Despite of domestication dogs show the behavior of their ancestors as their ancestors (wolves) are voracious, strong, cunning, agile, swift and sharp teeth’s (Keuster et al. 2006). In fact dog bites millions of people every year and half of them are children of age from 5 to 9 (Sacks et al. 1996). One out of every five bite case needs medical interventions and treatment (Shuler et al. 2008). Dog bites are the results of attacks of pet or stray dogs on humans. Humans have close association with dogs in their daily life. This association may be as pet dogs or it may be as stray dogs in developing countries (Shuler et al. 2008). Dog bite injuries vary from common injury to severe condition such as rabies. Most of the studies show the association of dog bites with different breeds and considerable debates are also there that which breed is associated more with dog bites (Patrick and O'Rourke 1998). Regardless the breed, some other things are also important, like dog behavior, human behavior, no supervision of dog or carelessness in control and the scenario or conditions under which the dog is living (Cornelissen and Hopster 2010). Breed is rather not an important point to discuss in developing countries like Pakistan. As in developing countries most of the Dog bites occur due to stray dogs. Mostly the injuries are minor but still dog bites are one of the most important problems for society and health administration authorities as dog bites comprises about 90% of total animal bites. About 4.5 million Americans are bitten by dogs every year and about 30,000 of them require procedures of reconstructive surgery (Wilde 1997). Fortunately the fatalities from dog bites are much less. Dog bite cases turn into fatal condition when patient is bitten by potential rabies virus carrier and infection may occur that can be life threatening. Rabies, a viral disease caused by the bite of an infected animal that can cause acute inflammation of brain in warm blooded animals and humans. It is present in more than150 countries of the world (WHO 2005). An estimate shows that 10 thousand deaths occur worldwide due to rabies. Potentially 3 billion people are at threat of rabies in Africa and Asia and out of the total 84% of rabies deaths occur in rural areas. Millions of cases of dog bites cases go unreported throughout the world. This underreporting hides the actual burden of the problem in the community (Turner 1976). In humans dog bite is one of the complex phenomena that may occur by interaction of three elements, animal, scenario and the victim. Figures on dog bites mostly pool out from studies in public health institutions and hospitals (Jacob John 1997). Most of the studies show the scientific analyzed information only on victim while the circumstances and conditions surrounding the incidence of dog bites remain unknown. Important thing is fatalities from dog bites occur only in very small proportion of dog bites (Cleaveland et al. 2002). However treatment expenses and consequences of injuries have turned the issue of dog bite into significant public health importance (Coleman et al. 2004). The other side of coin is that the aggressive behavior development in dogs leads to relinquishment of shelter and euthanasia, which indicate a problem in term of animal safety (Guy et al. 2001). Public health specialists and Epidemiologists focus that fatal and non-fatal dog attacks can be controlled or prevented through effective preventive measures. For effective and suitable preventive measures it is pertinent to start examining the epidemiological data of the respective community. Epidemiological data is require to define the geographically high risk areas, seasonal patterns associated with the dog bites with respect to the victim, and other triggering factors (Sacks et al. 2000). For the sound preventive and control measures epidemiological data is one of the best tools for better decision making in public health issues (CDC 2003). In developing countries like Pakistan epidemiological studies of dog bites are important and are needed on the multi-dimensional aspects as dog bite incidence and other associated risks are much higher and vary according to area of study. These types of multi-dimensional studies may change the preventive strategy plans with their extra efficiency. Normally control and preventive measures are designed to lessen the risk of dog bites and followed by all communities. Possible control and preventive measures are control of free roaming and unrestrained animals, vaccination, breed or type bans, licensing of dogs, extensive media campaigns specially in rural areas, well defined post bite program, investigation of dog bite incidents (Wilson et al. 2003). Pakistan is among the world highest cases of rabies with about 50 thousand cases per year. Recent estimates show that 570 peoples die annually in Pakistan because of rabies (WHO 1996). In Pakistan people mostly neglect the minor dog bite cases and due to high illiteracy rate large numbers of cases go unreported (Wasay et al. 2008). This is because people suffering from dog bite normally rely on local remedies, such as rubbing red chilies on the wound from the house the dog belongs (in case of pet dog). Rabies virus can be killed upto 65% by washing with soap only (Burki 2008). Vaccination is the ultimate solution for rabies, but very less amount of people knows about the vaccination of dogs. Post exposure treatment is costly in dog bite cases. Cost analysis of post exposure treatment for dog bites shows the actual picture and importance of dog bites in public health sector. Billions of rupees are spent on the vaccines and treatment of dog bites cases (Chulasugandha et al. 2006). A large number of cases report to quacks and go unreported on official database. For the better decision regarding the public health problem the cases must be reported to official database. Weak reporting system is also an important factor in developing countries like Pakistan. As in Pakistan rabies and dog bites are not notifiable disease. No proper surveillance system is there for rabies is at present. Studies and surveys shows that 55% people didn’t even consider dog bites as a predisposing factor for rabies and they even didn’t know that the dog bite can be fatal (Knobel et al. 2005). To prevent and control dog bite it is necessary to have comprehensive epidemiological data that allows the identification of associated risk patterns. Rabies is endemic in Pakistan so this study is aimed to investigate the problem posed by dog bites in Lahore, Pakistan. Lahore is the second most populated city of Pakistan with population of 5.143 million (according to 1998 census). This study will help the officials of public health in making better decision regarding dog bites. This study is aimed at investigating the problems posed by dog bites in Lahore. Availability: Items available for loan: UVAS Library [Call number: 2202,T] (1). Place hold Add to cart (remove)
	762.	No cover image available Efficacy Of Chenopodium Album As Anthelmintic Against Gastrointestinal Nematodes Of Sheep Dr. Muhammad Lateef by Waseem Ahmad (2007-VA-74) \| Prof. Dr. Azhar Maqbool \| Dr. Muhammad Ijaz \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Helminthiasis is among the most significant animal health harms, which inflicts heavy production and economy losses especially in small ruminants. The helminth problem is highly common mainly in developing countries like Pakistan (Dhar et al. 1982). Small ruminants have much importance in meat and leather industry of Pakistan. Sheep play a vital role in producing income and provide financial support for poor farmers in developing countries. Endo-parasites represent a major constraint to the production and growth of small ruminants (Babar et al. 2013). Pakistan has been reported to problem of helminths in sheep and goat (Raza et al. 2009) and cattle and buffalo (Athar et al. 2011). Mainly infection is generally controlled by allopathic drugs and vaccination (Behnke et al. 2008). Parasitic diseases are a major threat in efficiency, the most widespread helminth parasites being Haemonchus contortus, Trichostrongylus spp. and Oesophagostomum columbianum. Liver flukes and paramphistomes (Fasciola gigantica and Paramphistomum microbothrium) occasionally cause heavy mortality in animals grazing swampy areas (Akerejola et al. 1979). The adverse effects of nematode infections include: loss of weight, anorexia, anaemia, retarded growth, delayed sexual maturity, decrease in milk and meat production (Saddiqi et al. 2012). Indigenous knowledge of herbal medicine is a big source of the modern knowledge. Today, thousands of plants, traditionally used as medicines are being explored (Kakar, 2012). Chemical control of helminths coupled with improved management has been an important worm control approach throughout the World. However, increasing problems of development of resistance in helminths rise in price of drugs contributing factor for traditional plant used (Coles et al. 1997) against anthelmintics have led to the proposal of screening medicinal 1 Introduction plants for their anthelmintic activities. Reports of drug resistance have been made in every livestock host and to every anthelmintic class. In some regions of world, the extremely high prevalence of multi-drug resistance (MDR) in nematodes of sheep and goats threatens the viability of small-ruminant industries. Many parasitic nematodes of veterinary importance have genetic features that favor the development of anthelmintic resistance (Kaplan et al. 2004). The plants are known to provide a rich source of botanical anthelmintics (Lewis and Elvin Lewis 1977). There are many medicinal plants have been used to treat parasitic infections in man and animals (Iqbal et al. 2005). Various botanical plants have been possessed anthelmintic activity against helminth e.g Chenopodium album (Eguale & Giday, 2009). It has been expected that there are around 250,000 plant species present throughout the world. Plants, from ancient, have served human beings as sources of food, shelter, clothing and medicines. Before the advent of modern allopathic medicine and synthetic drugs, plants and to a certain extent, animals and minerals were used in various formulations for treatment of diseases by traditional medicinal practitioner (Rahmatullah et al. 2011). Plant medicine is very important from ancient to present daytime. The uses of biologically different plant assets for various ailments are the lifelong struggle of humankind (Hussain et al. 2008). In Indo-Pak subcontinent, Ayurvedic and Unani therapeutic systems are very popular and people have been using plants not only for the treatment of their own ailments but also for their domesticated animals. Chenopodium album (Chenopodiaceae) commonly known as “Bathu” is important medicinal plants in Pakistan and their different parts are utilized in the traditional system of medicine (Said et al. 1970). Chenopodium album usually recognized as “Bathua” is a familiar food as well as a medicinal plant. In traditional system of medicine, it is used as an anthelmintic, antimicrobial, antirheumatic, contraceptive, laxative, cardiotonic, antiscorbutic, 2 Introduction and blood purifier & also in management of hepatic disorder, spleen enlargement, intestinal ulcers, digestive, carminative, seminal weakness, pharyngopathy, splenopathy, hemorrhoids, cardiac disorder (Panigrahy et al. 2012). The seeds of the plant are known to possess anthelmintic activity against Haemonchus contortus. A compound C37- trihydroxy adjacent bistetrahydrofuran acetogenin, present in the seeds, is responsible for inhibition of the egg hatching of gastrointestinal nematodes (Saha et al. 2011). Chenopodium album (Chenopodiaceae) is a rapid rising fragile annual plant and it is found in Bangladesh. In English plant known as Lamb’s quarters and in Bengali as Buthiya shak. Both in vitro and in vivo activity of plant as anthelmintic has been reported (Jain and Singhai 2012). Chenopodium album was found to be one of the initial plant species colonizing a heavy metal-contaminated site, polluted by pyritic (sulphide-rich) waste from the Aznalcóllar Mine spill (South-western Spain). This shows its importance in the re-vegetation of this soil (Walker et al. 2004). In vitro experiments were arranged to conclude the possible anthelmintic efficacy of crude aqueous extracts and powder of the whole of Chenopodium album (Eguale et al. 2009). Commercial preparations of oil of chenopodium album and its active constituent, ascaridol, obtained by steam distillation, have been and continue to be, used with substantial success in mass treatment campaigns (Kliks et al. 1985). Availability: Items available for loan: UVAS Library [Call number: 2203,T] (1). Place hold Add to cart (remove)
	763.	No cover image available Determination of Biogenic Amines (Histamine & Putrescine) in Sea Fish Dr. Sanaullah Iqbal by Faseeha Farooqi (2012-VA-541) \| Dr. Muhammad Nasir \| Prof. Dr. M. Athar khan. Material type: Book; Literary form: not fiction Dissertation note: Biogenic amines (BAs) which are the nitrogenous compounds with lower molecular weight and they are formed by the decarboxylation of free amino acids by bacterial activity in food products during fermentation process and storage of the food (Sorungbe, 2005). Diet having high concentration of these complexes are the main source of biogenic amines in body.The most communal biogenic amines which are identified in food are Putrescine, tyramine, histamine and cadaverine. Uncontrolled microbial enzymatic activity of bacteria causes them to accumulate in food (Adam et al. 1999). Foods having high quantity of biogenic amines includes fermented vegetables, meat products, fish products, juices, dairy productand alcoholic beverages e-g wine and beer. When biogenic amine histamine is ingested it first reaches to the gastrointestinal tractwhere, it binds to some specific receptors if the detoxification system is not capable to remove it (Jarisch, 2004). Biogenic amines in bodyinvolves inmany important physiological functions, if their level is high in the body then it signify a direct danger to human well-being. There are some drugs e-g ethanol inhibit enzymes of biogenic amines catabolic pathways (Bodmeret al. 1999). Presence of biogenic amines can be bad indicator for meat it shows the presence of bacteria in meat which caused spoilage of meat (Miceal et al. 2007). More quantities of biogenic amines in processed, cooked and fresh foodstuffs can be associated to low sterile quality meat. Histamine which is most common biogenic amine acts as vasodilator and neurotransmitter on cardiovascular system and on central nervous. If histamineexceeds to certain level in body then it causes vomiting,diarrhea,headaches, cramps,stomachache, nausea, migraineand hypotension (Moreira et al. 2008). Histamine stimulatesthe smooth muscles of the gastrointestinal tract and uterus, often increases the exoneration of acid release from gastric mucosa, diarrhea, stomach ache and cramps. Another signs ofhistaminases causes the allergic reactions to the skin which includes pruritus flush and urticarial. Reduction of biogenic aminesin food industry is amission for the future (Prithwiraj et al. 2010). Improvement of diagnostic standard approaches for identification of biogenic amines in food product is good attention not only because of their toxicity level, on the other hand it can also be used as food quality indicators, consenting biogenic amine checking from raw materials to the ready to eat food. In corresponding, techniques for the identification of biogenic amines generating bacteria been established to access risk of biogenic amines formation in food content and to avoid their accumulation in eatable stuff. Safety of food is the main obligation that should be fulfilled during manufacturing process. While high intensity of biogenic amines are associated to customer health and their deliberations in food still not sufficiently standardized by governing organizations (Lehane et al. 2000). At present time, there are certainly no common regulations which defines the parameters and limits of biogenic amine tolerance in food products. Biogenic amine levels are irregularly distributed in food product on the other hand more control must be used on fermented food products of local source or got with traditional procedures (Paulsen et al. 2007). It is assumed that the existence of biogenic foodborne harming or poisoning is generally underestimated for the reason that of misdiagnosis and under reporting. We believes that the scientific diffusion of the tools that identify or determine the development of biogenic amines in food and the hazards related to their consumption might contribute to increase the alertness and awareness of hands involved which encourages the more responsible portion and consumption of better protection and quality of food (Patange et al. 2005). Availability: Items available for loan: UVAS Library [Call number: 2201,T] (1). Place hold Add to cart (remove)
	764.	No cover image available Effect Of Short Term Captivity Stress On Haematological, Behavioral And Biochemical Profile In Pigeon Dr. Imtiaz Rabbani by Nabeel Hassan \| Dr. Muhammad Quaid Zamman \| Dr.Zia Ullah \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: The birds (around 10,000 living species) are the most numerous tetrapod vertebrates classified as Neorinthes(Kan et al. 2010). Columbiformes is amongst the most easily recognized avian orders worldwide. The Rock pigeon (Columba livia), also known as Rock dove, is a member of the family Columbidae, which include some 310 species. This species includes the feral pigeon, the wild rock pigeon, and the domestic pigeon. Mostly wild Rock pigeons are pale grey in colour with two black bars on each wing; although domestic and feral pigeons are different in colour and pattern. Pigeons are stout bodied birds with short necks and short slender bills with a fleshy cere. The largest species are crowned pigeons which are nearly size of turkey whereas smallest are New World ground-doves of the genus Columbina, which are quite similar in size as a House sparrow(Murton and Westwood 1966). Pigeons and doves have wide range of distribution on Earth, except for driest areas of the Antarctica, Sahara Desert and its surrounding islands. The family has adapted to most of habitats. A large numbers of species are present in tropical forests and woodlands; some inhabit savannas, grasslands, deserts, temperate woodlands and even the barren sands(Falc 2013). Rock pigeon is the largest species which had a large natural distribution from Britianand Ireland to Arabia, Northern Africa,Europe, Central Asia, India, up into China(Baptista et al. 1997). Pigeons live in diverse environment which is so complex ranging from hot, rainy, cold that can be potentially harmful for them. However they adjust themselves by generating stress responses(Harvey et al. 1984). These stress responses are integrated neuroendocrine responses that cause activation of hypothalamus-pituitary-adrenal (HPA) axis and secretion of Corticosterone and experiences basic emotion of fear. Although it can be difficult to measure stress, results from some species demonstrate that Cortisol responses and fear behaviour responses in individual birds are related(Cockrem 2007). Stress is induced when any animal/ bird experiences variations in its environment that may have an effect on body responses that have the purpose to maintain the homeostatic condition. A good knowledge about health status related to the handling of caged birds and the struggle to improve their veterinary care, have important role in deciding the success of these caged birds (Villegas et al. 2004). Pigeon’s behavioural comparison between captive and wild populations is a useful tool as it is commonly believed that birds suffer if they are unable to perform a full repertoire of natural behaviours. Two main behaviours commonly displayed in captivity include stereotypical behaviour and abnormal behaviour(Guyon 2009). While the trend of keeping pigeons in captivity is ever increasing, the major challenge while keeping them in captivity is their inability to survive. The reason seems to be change in environmental conditions or to subclinical infections in wild becomes aggravated in confinement. The poor ability of birds to survive may cause derangements in blood and biochemical parameters as a result of stress due to confinement (Azeez et al. 2013). The related stress values are generally not reported and data is scarce. Blood is an important medium to determine the health state of a bird. Blood analysis is helpful in assessing both the physiological and pathological conditions of a bird. Haematology and blood biochemical profiles are very helpful integral tools to diagnose and treat the diseases in birds and to provide information about bird’s nutritional status and physical condition. These two factors also help scientists understanding the multiple contributing functions of blood corpuscles. The variations in haematological ratios depend on various factors like age, species, the phase of sexual maturity, environmental and health condition (Rey Vázquez and Guerrero 2007). Haematological ratios are closely associated with response of an animal to its environment, an aspect that birds live in the environment that might exert some impact on haematological parameters. Besides, all possible facilities and care are provided; the birds kept in captivity are under continuous stress and are more likely to be infected. The caged stress may have an effect on haematopoietic system in the body of human, animals and birds. Haematopoietic marrow values decrease in caged environment. This results in low levels of red blood cells (RBCs), haemoglobin (Hb), white blood cells (WBCs). The values of RBCs count, Hb, MCH, WBCs count were lower in Nigerian laughing dove in caged environment (Azeez et al. 2013). Biochemical indices may also be influenced by caged stress. ALT, AST and CK levels were known to be higher in captive puna ibis. This was may be due to injury during capture (Coke et al. 2004). In caged layers, the calcium, phosphorus and bone geometry were investigated. In caged eagles, glucose levels were higher than in free-living eagles. These changes could be closely associated with the differences in nutritional level and metabolism of birds (Ferrer and Dobado-Berrios 1998) Availability: Items available for loan: UVAS Library [Call number: 2194,T] (1). Place hold Add to cart (remove)
	765.	No cover image available Effect Of Different Heat Treatments On Antioxidant Activity Of Eggplant And Its Efficacy Study Dr. Sanaullah Iqbal by Wajeeha Baig \| Dr. Muhammad Nasir \| Prof. Dr. Habib-ur-Rehman. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Eggplants (Solanum melongena L), are native to the South East Asian region and were ﬁrst domesticated there over 4000 years ago. In fact, the eggplant’s true species name ‘‘Melongena’’ is an ancient name for eggplant in Sanskrit (Spurling, 2003). The color, size, and shape of the eggplant fruit vary signiﬁcantly with the variety of cultivar. Eggplant is one of the most common vegetables that is grown and consumed all around the world (Nisha et al. 2009). Thomas Jefferson introduced eggplant to the United States in 1806. Even today, a prickly, white eggplant still grows in Jefferson’s preserved Vir-ginia Garden at Monticello (Filippone et al. 2009). Eggplant fruit contains ascorbic acid and phenolics e.g chlorogenic acid, flavonoids, acetylated chlorogenic acid isomers, hydroxycinnamic acid oxides conjugates caffeic acid ,both of which are powerful antioxidants (Vinson et al. 1998). Eggplant is commonly considered as a vegetable, but botanically it is categorized as a fruit. Eggplant fruit is ranked among the top ten vegetables in terms of oxygen radical absorbance capacity due to its high phenolic content (Cao et al. 1996). A comparative study of the antioxidant capacity of different varieties was recently reported by two separate groups of researchers (Huang et al. 2004; Nisha et al. 2009). Vegetables contain several hydrophilic and lipophilic antioxidant compounds and it is important to estimate the antioxidant activity using different methods. They may act together more effectively than singly because they function synergistically and are capable of quenching free radicals in both aqueous and lipid phases (Ohr et al. 2004; Trombino et al. 2004). Antioxidant components are micronutrients present in the diet that can delay or inhibit lipid oxidation, by inhibiting the initiation or propagation of oxidizing chain reactions, and are also involved in scavenging free radicals (Othman et al., 2007). Epidemiological studies have shown that high fruit and vegetable consumption has health beneﬁts in the prevention of chronic diseases (Cheel et al., 2007). The influence of home cooking methods (boiling , pressure-cooking , frying ) on the antioxidant activity of vegetables has been evaluated in 20 vegetables, using different antioxidant activity assays (lipoperoxyl and hydroxyl radicals scavenging and TEAC). Artichoke was the only vegetable that kept its very high scavenging-lipoperoxyl radical capacity in all the cooking methods. The highest scavenging capacity were observed in cauliflower after boiling and microwaving , in pea after boiling , and in zucchini after boiling and frying. Beetroot, green bean, and garlic kept their antioxidant activity after most cooking treatments. Swiss chard and pepper lost OH (Enez –Monreal et al. 2009). In the case of boiling or pressure-cooking occurs lixiviation phenomenon that leads to a 64% loss of total carotenoids and a 49% loss of total phenolics (Bunea et al. 2008). The phenols enter the cooking water and complex phenol proteins are found, reducing drastically by 90% or more (Barroga et al. 1985: Rocha et al. 2007). Eggplant is one of most common vegetables consumed all around the world. The present study will evaluate the antioxidant potential of two different varieties of eggplant (long purple coloured big size, and rounded purple coloured small size) in terms of total phenolic content (TPC), 2,2,di-phenyl-2-picrylhydrazyl (DPPH), superoxide radical scavenging activity, and total anthocyanin content. Extracts from purple colour small size eggplant demonstrated better antioxidant activities than the other samples which may be attributed to the higher phenolic and anthocyanin content since a linear relation was observed between the TPC and the antioxidant parameters (Nisha et al. 2009). There is comparison of among vegetables regarding to their antioxident capacity. Tab.1.1: Comparison of different vegetables with respect to their antioxidant capacity Vegetables Size Total antioxidant capacity Russet potato 1 whole 4,649 Artichoke Half cup 4,402 Small red bean Half cup 13,727 Eggplant 1 whole 4,035 Red kidney beans Half cup 6,000 In the present study , the focus is on the amount of the antioxidants in eggplant after the application of different heat treatments. As eggplant is good source of antioxidants, it has been observed from different studies that heat leaves adverse effect on nutritional status of fruits and vegetables. Pakistan is one of the countries who has good cultivation rate of eggplant. One hundered gram of fruit contains 0.7mg iron, 13.0mg sodium, 213.0mg potassium, 12.0mg calcium, 26.0mg phosphorus, 5.0mg ascorbic acid and provides 25.0 calories (Yousafi et al.2013). In world production ranking, Pakistan is at 20th position in the eggplant production. Pakistan produces 87,000 tons eggplant every year. Moreover, it has 0.2% sharing in world wide eggplant production. It is cultivated in 9,044 ha on the land of Pakistan (FAO, 2012). Hydrogen Peroxide is one of the most powerful oxidizers known -- stronger than chlorine, chlorine dioxide, and potassium permanganate. And through catalysis, (H2O2) can be converted into hydroxyl radicals (.OH) with reactivity second only to fluorine. Hydrogen Peroxide (H2O2) is a colourless liquid that resembles water in many respects. Its physical properties are very similar to those of water, except that it is 40% denser. The main difference between hydrogen peroxide and water, however, is in its chemical behaviour. The single bond between the two oxygen atoms is weak, so that H2O2 readily fragments into either H and HO2 or two OHs. Either way, the resulting species are free radicals, which means they are very reactive, and this makes H2O2 a very powerful oxidizing agent. For this reason it has been utilized in rocket propulsion, when it is used to oxidise the hydrazine fuel, liberating hot gases (steam and oxygen) which propel the rocket forward. When something acts as an oxidising agent is gains electrons (removing them from the oxidised species) (Ganie et al., 2009). For this purpose, this study has been designed to find out the appropriate method to cook eggplant at domestic level, so that maximum level of antioxidants could be obtained in our food, because antioxidants play a very important role in prevention of many chronic diseases. So, four different cooking methods i.e, grilling, cooking under pressure, boiling and deep frying has been selected for this study because these cooking methods are applied frequently at domestic level. Availability: Items available for loan: UVAS Library [Call number: 2191,T] (1). Place hold Add to cart (remove)
	766.	No cover image available Evaluation Of Different Preparations Of Allium Sativum (Garlic) Against Coccidiosis In Broilers Dr. Muhammad Lateef by Muhammad Waqas \| Dr. Muhammad Ijaz \| Dr. Haroon Akbar \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Poultry industry is playing a pivotal role for the prosperity of Pakistan and is growing day by day. However, this sector is still facing many problems like coccidiosis which are hindering its progress (Saima et al. 2010). Coccidiosis with the protozoan parasite Eimeria as the infectious agent causes enormous economic losses, particularly in poultry farms (Dkhil et al. 2011). Eimeria are common parasites in the digestive tract of the hosts causing diarrhea and fluid loss. Infections begin with oral uptake of Eimerian oocysts which release sporozoites in the intestine. These in turn invade enterocytes in which they multiply, and finally, oocysts are released again with the faeces (Renaux et al. 2001). Medicinal plants as natural feed additives are recently used in poultry diet to enhance the performance and immune response of chicken (Tanweer et al. 2012). Coccidiosis of chickens is an enteric parasitic disease caused by multiple species of the protozoan parasite genus Eimeria (Apicomplexa: Eucoccidia: Eimeriidae) and is one of the commonest and economically most important diseases of poultry world-wide (Shirley et al. 2005). It causes production losses, and high morbidity (due to acute, bloody enteritis) and mortality rates. While the control of coccidiosis has relied mainly on the preventive use of anticoccidial drugs together with the induction of species-specific natural immunity in chicken flocks (Shirley et al. 2005), this widely used approach is costly and has led to serious problems with drug resistance in Eimeria populations (Williams, 2006). Levine discovered that sulphanilamide would cure coccidiosis in chickens, various anticoccidial feed additives have been developed and added (Levine 1939). Efforts have always been made to add coccidiostats on regular basis in chicken’s diet. Consistent use of coccidiostats has not only narrowed the gap between cost of production and returns, it could be a potential threat to human being as a result Introduction 2 of their residual effects. The increasing resistance of avian coccidiosis to anti-coccidial drugs currently used by poultry industry together with the requirement for drug and antibiotic free production systems has meant that it is now important to look for new ways to control the disease. So, research initiated for possible use of herbal (natural) products against avian coccidiosis. Herbal products in past have been effectively used for the control and treatment of several ailments in poultry and human beings. Allium sativum a medicinal plant could be an effective substitute for coccidiostats because of its chemical nature and antimicrobial activities. Allium sativum (garlic) have been widely used for their broad range of pharmacological activities, including antiparasitic activities. Avian coccidiosis is one of the most costly and widespread parasitic diseases in the poultry industry, and has been mainly controlled by the use of different chemotherapeutic agents. Due to the emergence of drug-resistant strains, alternative control strategies are needed (Elbanna, 2012). Hence, further investigations are required to understand the exact mechanism underlying the effects of these feed additives, which are still in use in broiler nutrition as performance enhancers and as agents for controlling coccidiosis. Garlic (Allium sativum ) has been known as an herbal remedy to prevent and treat a variety of heart diseases and metabolic diseases, such as atherosclerosis, thrombosis, hypertension, dementia, cancer, and diabetes (Elbanna, 2012). Garlic has rich organosulfur compounds and precursors (allicin, diallyl sulfide, and diallyl trisulfide). The enzyme allinase that is responsible for converting alliin (S-allyl cysteine sulfoxide) to allicin is inactive. When garlic is chopped or crushed, the allinase enzyme present in garlic is activated and acts on alliin (present in whole garlic) to produce allicin (Tanweer et al. 2012). Many studies indicate that allicin is the potentially active component of garlic. These compounds provide garlic its characteristic odor flavor as well as most of its biological properties and have been identified as having the Introduction 3 hypocholesterolemic effect in human and animal products (Silagy and Neil, 1994; Konjufca et al., 1997; Chowdhury et al., 2002). Species of Eimeria in poultry are usually identified by the size and morphology of different stages of the life cycle of the parasite and the nature and location of lesions in the intestines. Differentiation of species in mixed infections, however, can be difficult because some species have similar characteristics (Long and Reid, 1982). Different workers have investigated the prevalence of eimeriosis in different classes of poultry birds and in different areas of Pakistan (Dar and Anwar, 1981; Anjum, 1990; Ayaz et al., 2003). Each Eimeria species has a particular predilection site in the chicken digestive tract; for example, E. tenella attacks the cecum. However, the most common and pathogenic species that affects the poultry industry in Pakistan is E. tenella, which results in high mortality (Ayaz et al., 2003; Abbas et al., 2008). The increasing resistance of avian coccidiosis to anti-coccidial drugs currently used by poultry industry together with the requirement for drug and a production systems which should be antibiotic free, it’s now very much necessary to go for the new and advanced methods to prevent this disease. Therefore, scientists started to work on medicinal use of herbal products to control this eimeriosis. In past for treatment of various human and poultry ailments the natural herbal products have been effectively used several times. Because of the anticoccidial nature and antibacterial effect, garlic could be served as a valuable alternative for coccidiostats as a medicinal plant. Previously it has been used for multipurpose like as an antibiotic, for antiinflammatory effects, for anti- eimerial response and as an anti-ulcer agent. Keeping in view the importance of poultry industry in Pakistan, the present project has been designed to “Evaluate different preparations of Allium sativum (Garlic) against coccidiosis in broilers”. Availability: Items available for loan: UVAS Library [Call number: 2189,T] (1). Place hold Add to cart (remove)
	767.	No cover image available Development of Multiplex PCR For Molecular Diagnosis of Eimeria Tenella And Eimeria Necatrix Infections In A Single Step From The Commercial Broilers by Muhammad Umair Khan \| Dr.M.Imran Rashid \| Dr. Muhammad Latif \| Dr.Wasim Shehzad \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: With Blank CD. Availability: Items available for loan: UVAS Library [Call number: 2195,T] (1). Place hold Add to cart (remove)
	768.	No cover image available Effect Of Feeding Frequency On The Growth Performance Of Lohi Lambs During Post Weaning Period by Muhammad Zahid Farooq (2010-VA-271) \| Prof. Dr. Muhammad Abdullah \| Dr. Nisar Ahmed \| Prof. Dr. Makhdoom Abdul Jabbar \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Thesis Submitted with Blank CD. Availability: Items available for loan: UVAS Library [Call number: 2192,T] (1). Place hold Add to cart (remove)
	769.	No cover image available Incidence Of Canine Trypanosomiasis And Standardization Of PCR For Its Diagnosis by Sajid Bashir Khan Qaisrani (2006-VA-60) \| Dr. Muhammad Haroon Akbar \| Dr. Muhammad Imran Rashid \| Dr.Wasim Shahzad \| Faculty of Veterinary Sciences. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Thesis Submitted With Blank CD. Availability: Items available for loan: UVAS Library [Call number: 2198,T] (1). Place hold Add to cart (remove)
	770.	No cover image available Effect of Ginger and Turmeric Against Cadmium Induced Hepato-Renal Toxicity in Albino Rats by Hafiza Sajda Ashraf (2012-VA-578) \| Ms.Asma Waris \| Dr. Muhammad Tayyab \| Dr. Sehrish Firyal. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Metal compounds and metal is natural elements of all ecosystems, moving between biosphere, hydrosphere, atmosphere and lithosphere. Metal complexes are increasingly introduced in the environment and could finally accumulate in a/biotic systems (Florea et al. 2005). Contact to heavy metals is potentially damaging particularly for those metal compounds, which do not contain any physiological function in the metabolism of cells. A heavy metal is a part of an ill-defined subset of constituents that show metallic properties, which would mostly include the some metalliods, actinides, lanthanides and transition metals. Heavy metals have a high density and atomic weight much greater at least 5 times than water. Anthropogenic basis of heavy metals, i.e. contamination, have been introduced to the ecosystem waste-derived fuels are particularly prone to have heavy metals. More than 20 heavy metals, but inorganic arsenic, lead and cadmium are of particular concern (Gornal 1949). Although, carcinogenic and toxic effects of metals have been observed in animals and humans, and that these metals form a key part in the normal functioning of biological cells. Some necessary transition metals like manganese, iron, zinc and copper contribute in controlling a variety of signaling and metabolic pathways. On the other hand their redox properties and coordination chemistry gave them an additional advantage that these metals might escape from the control mechanism such that homeostasis, partitioning, transport and binding to the designated cell elements and they interrelate with protein sites other than those which are tailor- made for them by displacing other metals from their natural binding sites. While, this process does not take place regularly, but the toxicity of metals can lead to impairment and dysfunctioning of cells (Leonard et al. 2004). Oxidative stress is one of the main mechanisms of heavy metal toxicity. These metals are able to interact with DNA causing oxidative worsening of biological macromolecules and nuclear protein (Chen et al. 2001). Metals like mercury, iron, cadmium, lead, copper and nickel, have the capability to produce reactive radicals, leading to cell damage like damage to lipid bilayer, depletion of enzyme activities and DNA (Stohs 1995). Moreover, these reactive radical species comprise a broad diversity of sulfur-, oxygen, nitrogen- and carbon radicals, initiating not only from lipid peroxides, hydrogen peroxide and superoxide radical but also in chelates of proteins complex peptide and amino acid, with the toxic metals. Metals produce reactive species, which in turn can cause nephrotoxicity, hepatotoxicity and neurotoxicity in humans and animals (Chen and Sthos 1995). Cadmium is a natural metal located in the Periodic Table of the elements between mercury and zinc and the chemical behavior of cadmium is like a Zn. There is usually a divalent cation, complexd through other constituents (e.g CdCl2). Cadmium in the soil crust around 0.1ppm (Hans 1995) frequently being found as a contaminant in Pb or Zn deposits. In Zn or Pb smelting cadmium produced as a by product. Commercially, Cd is used in batteries, galvanizing steel, lasers, ink color, television screens, cosmetics and was used as an obstacle in nuclear fission and zinc to weld seals in water pipes made of lead before 1960. In the United States, approximately 600 metric tons are produced annually and about 150 tons are imported (US 2012). Contact of Cd in human occurs mainly through ingestion or inhalation. Absorption through the skin contact is negligible. Intestinal absorption of cadmium is greater in individuals with zinc, calcium or iron deficiency (Nordberg et al. 2007). The main source of cadmium exposure in human is considered to be the cigarette smoking (Friberg et al. 1983). Cd levels in blood and kidney are consistently elevated in smokers than nonsmokers. Inhalation exposure due to industry can be major occupational settings for example, soldering or welding and can cause a severe chemical pneumonitis (Nordberg et al 2007). Exposure to cadmium from getting unhygienic food (eg, shellfish, leafy vegetables, rice regions of Japan and China and organ meats,) or water (either the old tap closed Zn / CD or a long-term industrial pollution) and can produce long-term effects on health (Abernethy et al. 2010). After absorption, Cd is transported all over the body, often linked to a sulfhydryl group of protein such as metallothionein and about 30% deposits in the kidneys and 30% in the livers, and the rest scattered throughout the body (Argonne et al 2001). Half life of cadmium in the blood was estimated 75 to 128 days. (Jarup et al 1983). As a result urine, blood and hair Cd levels are poor substitutes for body burden and primarily reflect current contact; it is also true with the other heavy metals. Urine provocation test will require the estimation of cadmium in the body (Bernhoft et al. 2012). The toxicity of cadmium has been shown in parts of body, cadmium induces tissue damage by creation of oxidative stress (Matovic et al. 2011; Patra et al. 2011; Cuypers et al. 2010) epigenetic changes in DNA expression (Wang et al. 2012; Martinez et al. 2011; Luparello 2012) mainly in the proximal segment of the renal tubule S1 (Vesay et al. 2010) inhibition or up regulation of transport routes (Therenod et al. 2012; Wan et al. 2012; Vankerkhove 2012). Other pathologic mechanisms comprise competition disruption of the physiologic effects of Mg or Zn (Abdulla et al. 1989; Moulis et al. 2010; Shukla et al. 1984), destruction of mitochondrial function and inhibition of heme synthesis (Schauder et al. 2010), and potentially inducing apoptosis (Cannino et al. 2009). Glutathione reduction is observed, as structural deformation of proteins due sulfhydryl groups bind to the cadmium (Valko et al. 2005). Moreover, these effects are amplified by contact with other toxic metals such as As and Pb (Whittaker et al. 2011) and may be ameliorated by Se or Zn and by factors increasing levels of Nrf2 (Wang et al. 2012; Kcwill 2012). Medicinal plants are plants having inherent active components used to treat disease or relieve pain (Okigboet et al. 2008). In most developing countries traditional medicines and medicinal plants are used as healing agents for the maintenance of good physical condition (UNESCO 1996) and in developing countries 80% of the peoples relies on traditional medicines, usually herbal remedies, for their prime health care needs (Schmincke et al. 2003). Plants extracts and their products are used in medicines as herbal remedies and they are being used to cure diverse infections (Arekemase et al. 2011). Moreover, there has been an increased concern in the beneficial potential of medicinal plants or plant products containing antioxidant properties in plummeting free radical induced tissue injury (Gupta & Flora 2005). Plants make a vital contribution to health care. The medicinal properties of plants could be based on the antimicrobial, antipyretic, antioxidant, effects of the phytochemicals in them (Cowman 1999; Adesokan et al. 2008). Natural antioxidants also in the form of crude extracts or their chemical ingredient are very efficient in retarding the devastating processes create by oxidative stress (Zengin et al. 2011) and the toxicity analysis of the majority of the medicinal plants are not yet fully appreciated it is usually accepted that drugs which are derivative of plant products are safer than their imitative counterparts (Oluyemi 2007). Ginger (Zingiber officinale), is a part of the Zingiberaceae family, is a eminent spice used in your daily diet (Demin et al. 2010) and also utilized for the traditional treatment of several infirmities (Afzal et al 2001). Major components of ginger like shogaol, gingerol, diarylheptanoids and volatile oil, work as antioxidant, anti-diabetic, analgesic, antipyretic, anti-inflammatory, anti-lipid and anti-tumor (Penna et al. 2003; Kadnur et al. 2005; Islamr et al. 2008; Shim et al. 2011; Kim 2008; Wangw et al. 2009). Latest scientific research has exposed that ginger has many therapeutic such as anti-oxidant effects, a capability to restrain the formation of inflammatory complexs and direct anti-inflammatory effects (Thomson et al. 2002). Ginger extract have antioxidative features, since it can scavenge hydroxyl radicals and superoxide anion. Z. officinale was found to slow down the activity of peroxidation and lipoxygenase (Topic et al. 2002). Another, frequently used spice of Zingiberaceae: ‘curcuma longa’ (turmeric) has shown its strong intrinsic activity as a healing agent for several ailments. The active ingerdient of turmeric is the Curcumin that (Curcuma langalinn) shows antioxidant property. It is a yellow coloured phenolic pigment yield from the turmeric rhizomes (family Zingiberaceae).The most significant characteristic of curcumin is that it has no side consequences, regardless of the therapeutic agent in a number of useful purposes. It acts as a scavenger of free radicals (Khanna et al. 1999). Curcumin is considered to be an efficient antioxidant against oxidative tissue damage. It can considerably restrain the generation of reactive oxygen species (Joe et al. 1994) Moreover, curcumin is considered to be a powerful inhibitor tumour cells proliferation (Joe et al. 2004) a powerful cancer chemopreventive agent (Duvoix et al. 2005; Aggarwal et al. 2005) an dexhibits anti carcinogenic, anti-infective and anti viral properties (Araujo et al. 2001). Availability: Items available for loan: UVAS Library [Call number: 2199,T] (1). Place hold Add to cart (remove)
	771.	No cover image available Biochemical Evaluation Of Armoracia Rusticana And Raphanus Sativus On Alloxan Induced Diabetic Rats by Nadia Rana (2012-VA-540) \| Ms. Asma Waris \| Dr. Abu Saeed Hashmi \| Dr. Muhammad Wasim. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Diabetes mellitus (DM) is a metabolic disorder characterized by hyperglycemia in which the body does not produce or properly utilize insulin. It the reason of interruption in protein, carbohydrate and lipid metabolism and caused the complications such as nephropathy, microangiopathy and retinopathy. It is the most widespread endocrine disorder, affects more than 176 million people worldwide (WHO 2004). Diabetes mellitus is generally classified into three types; type I, type II diabetics and gestational diabetes (Velho and Foguel, 2002). Type I diabetes mellitus is commonly occur among young people, it is also known as juvenile-onset diabetes or insulin dependent diabetes mellitus. Type I is the result of absolute deficiency of insulin that is commonly caused by the chronic autoimmune disease that results from complex interaction of both genetic and environmental factors (Pietropolo 2001). Type II diabetes mellitus is mostly occur in adults aged 40 years or above, it is commonly known as non-insulin diabetes mellitus characterized by too much hepatic glucose production, reduced insulin secretion from beta cells of pancreas, and peripheral tissues such as muscle adipose and liver become resistant to insulin (Ahmad 2006). Association of hyperglycemia with long term damage, dysfunction as well as ultimate organs failure, mainly the heart, blood vessels, eyes, kidney and nerves has previously been recognized (Hung et al. 2005). Dyslipidemia is another main reason of mortality and morbidity that results in development of cardiovascular complications (Reasner 2008). It is a main risk factor of diabetes and mostly result from prolonged hyperglycemia and insulin resistance in both (type I and type II) diabetic patients is called ‘diabetic dyslipidemia’ (Mooradian 2009). Hyperlipidemia and an increase in blood cholesterol and triglyceride are results from decrease in lipolysis which is caused by deficiency of insulin, eventually increases the risk of heart attack and atherosclerosis (Avramoglu et al. 2006). The risk of heart disease, stroke, kidney disease, retinopathy, neuropathy, ulceration and gangrene of extremities is increased with association of diabetes mellitus (Rotshteyn and Zito, 2004). According to current statistics, diabetes mellitus is worse or greater in developing countries than the developed countries worldwide (Oputa 2002). So there is a great need to discover, design and test new drugs having dual therapeutic properties to control and cure both closely related critical diseases, diabetes and dyslipidemia and their mutually linked chronic complications (Bhandari et al. 2002). In order to design and develop the drugs for the treatment, one of the best strategies is experimental animal models to understand pathophysiology of any disease (Rees and Alcolado, 2008; Chatzigeorgiou et al. 2009). For studying and testing anti-hyperglycemic agent, several animal models have been developed for the past few decades (Srinivasan and Ramarao, 2007). Chemical induction of experimental diabetes by alloxan is one of the most effective methods (Etuk 2010). Alloxan is a widely used diabetogenic agent that induced the type I diabetes in animals but it also represent the end stage type II diabetes milletus: as there is severe deficiency of insulin in plasma, the end stage type II diabetes mellitus also adopts the characteristics of T1DM (Viana et al. 2004). Alloxan exerts its action by generating reactive oxygen species (ROS) along with cytosolic calcium raised in islet B of pancreas, when administered parenterally (Szkudelski 2001). Diabetic dyslipidemia is also acquired by the untreated alloxan induced diabetic animals (Alnoory et al. 2013). Currently herbal remedies are in great demand due to side effects associated with therapeutic synthetic drugs (Mahmood et al. 2011). There are large numbers of plants that have shown effective hypoglycemic activity after laboratory testing, more than 1200 plants species are used in the treatment of diabetes mellitus worldwide (Eddouks et al. 2005). It is believed that antioxidants present in the diet help to reduce certain diseases, vegetables are rich in these compounds (Astley 2003; Bazzano et al. 2002). There are large number of herbs, spices and other plant materials that have shown hypoglycemic and antioxidant properties, and are less harmful than synthetic drugs (Eidi et al. 2006). For the development of new pharmaceutical lead along with dietary supplement to already existing therapies, medicinal plants provide a valuable source of oral hypoglycemic compounds (Bailey and Day, 1989). Raphanus sativus (radish) belong to the family Brassicaceae and it is an edible root vegetable (Lewis-Jones et al. 1982). Radishes contain high quantity of calcium, magnesium potassium, copper, ascorbic acid, folic acid, vitamin B6, and riboflavin and low amount of saturated fat and are very low Cholesterol (Nunes et al. 2011). Roots, seeds and leaves are the different parts of radishes (Raphanus sativus) that are used for medicinal purposes (Nadkarni et al. 1976). Radish roots are beneficial to protect the cell membranes against lipid peroxidation and also inhibit the changes in membrane caused by fat rich diet (Sipos et al. 2002). Radishes (Raphanus sativus) have good hypoglycemic potential coupled with antidiabetic efficiency (Shukla et al. 2011). Due to hyperlipidemia the probabilities of cardiovascular disease increases in diabetic patient. Raphanus sativus (radish) is a traditional plant which is used to lower plasma lipid. It has the capability to lower the plasma triglyceride, cholesterol, and phospholipids in normal rats (Taniguchi et al. 2006). Radishes are recommended as an alternative treatment for various diseases including hyperlipidemia, coronary heart diseases and cancer due to its high medicinal and nutritional value (Cetin et al. 2010). Phosphatase, catalase, sucrase, amylase, alcohol dehydrogenase and pyruvic carboxylase are the main enzymes that found in the radish roots (Singh et al. 2013). It is beneficially used in curing poor digestion and liver dysfunction (Lugasi et al. 2005), antioxidant activities (Wang et al. 2010), anti tumorigenic (Kim et al. 2011), anti-diabetic (Shukla et al. 2010). The leaves of radish are good source of protein (Singh and Singh, 2013). Armoracia rusticana (Horseradish) belongs to the Brassicaceae family; it is a hardy perennial plant, mustard and cabbage are also including in this family. The roots of horseradish are rich in vitamin C and B1, iron, potassium, calcium and magnesium, phytoncide and essential oils; Allyl isothiocyanate a (volatile aglycone) which is released by a glycoside is identical with the essence of mustard plant (Istudor 1998). Root of horseradish smells pungent due to the allyl sulfide, a substance present in garlic and onion. Armoracia rusticana is a source of many compounds that have been broadly studied for various health benefits (Lin et al. 2000). It contains several substances that have beneficial effects on peripheral blood flow. Its utilization normalizes the blood pressure and prevents the risk of thrombosis and sulfurous substances also improve the elasticity of cerebral and coronary blood vessels (Cirimbei et al. 2013). It has antibacterial properties due to allyl isothiocyanate present in volatile oils, especially mustard oil (Rosemary 1976). The main component of the horseradish and the other vegetables from Brasicaceae family is sinigrin, degraded by the myrosinase enzyme complex to the allyl isothiocyanate (Wang et al. 2010). The enzyme horseradish peroxidase, is a heme-containing enzyme found in the plant that utilizes hydrogen peroxide to oxidise a extensive variety of organic and inorganic compounds, widely used in molecular biology and biochemistry (Bladha and Olssonb, 2011). Availability: Items available for loan: UVAS Library [Call number: 2206,T] (1). Place hold Add to cart (remove)
	772.	No cover image available Fractions Of Milk Fat On Lipolysis In Cheddar Cheese by Shakeel Ahmad (2008-VA-426) \| Prof. Dr. Muhammad Ayaz \| Dr. Muhammad Nadeem \| Dr. Muhammad Hayat Jaspal. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Lipids are heterogeneous group of biological compounds, soluble in fat and insoluble in water. Oils and fats mainly comprise of triglycerides and has great importance in Food systems. Fats and oils are completed through ester of three fatty acids and a glycerol molecule (Stolyhmo, 2007; McClement and Decker, 2010; Nichols et al. 2011). Fats have a primary importance for the texture of Foods (Rao, 2003). Fat has more energy values as compared to other Foods nutrients (Wu et al. 2013), presently, one of the major developments is declining the cholesterol contents and fat in the Foodstuffs (Ma and Boye, 2013). Sensory attributes like appearance, flavor, texture and physicochemical properties of the Foods depend upon the fat because it is very important for the Foodstuffs improvement. For these properties, there should be practical strategies which can reduce fat contents only in the Foodstuff (Wu et al. 2013) and should not effect on nutritious and sensory properties (Boff et al. 2013). Milk fat can be transformed into various fractions such as very high melting fraction (>50°C), high melting fraction (35-50°C), middle melting fraction (25-35°C), low melting fraction (10-25°C) and very low melting fraction (<10°C). Low melting fraction (<15°C) has strong butter flavor and can be incorporated into milk powder to improve functionality. It can be used in confectionery products and can increase spread ability of butter at low melting temperature (Gunstone, 2001). It has been investigated that melting point of butter oil decreased with C18:2 and increased with C16:0 and C14:0 fatty acids. It has also been investigated that melting point is negatively correlated to C40, C38, C30 and C28 tri-acylglyceride while positively correlated with C48, C46 and C44 tri-acylglycerides (Ortiz-Gonzalez et al. 2007). The anhydrous milk fat has a higher fraction of low melting tri-acylglycerids due to more unsaturated fatty acids (Smet et al. 2010). Fatty acids are composed of carbon and hydrogen atoms having one carboxyl (COOH) group at one side of the chain (Ghatak and Bandyopadhyay, 2007). Fatty acids are divided into short, middle, long chain fatty acids and also in saturated and unsaturated fatty acids. Unsaturated fatty acids are further categorized as monounsaturated, poly unsaturated fatty acids and saturated fatty acids. Almost 65-68% saturated fatty acids of milk fat possess many health concerns (Richmond, 2007). More than 4 hundred types of fatty acids are present in milk fat of different bovine breeds. Plasma cholesterol and incidence of coronary heart disease is increased by medium chain saturated fatty acids of milk fat lauric acid (C12:0), myristic acid (C14:0) and palmitic acid (C16:0) (Jensen, 2002). Fatty acid composition of diet has a great impact on health. Considerable attention has been given on the saturated fatty acids present in diet (Astrup et al. 2011). Nutritionists recommend that saturated fatty acids should be replaced by unsaturated fatty acids to decrease the incidence of cardiovascular disease (Erkkila et al. 2008). Medium chain fatty acids C12:0, C14:0 and C16:0 are atherogenic (Parodi, 2004; Kris-Etherton and Innis, 2007). The coronary heart diseases and atherogenic fatty acids are highly correlated (Moss and Reed, 2003; MacRae et al. 2005; Mensink, 2006). As compared to other lipids sources dairy products are well known to increase the cardiovascular diseases in human beings, because dairy products contain lower proportion of unsaturated fatty acids and higher proportion of saturated fatty acids especially palmitic and myristic fatty acids (Sacks and Katan, 2002). Dairy Foodstuffs are the sources of dietary cholesterol which increases the serum cholesterol (Collins et al. 2003). Modification in milk fat can be carried out by chemical and enzymatic interesterification (Pal et al. 2000). Physical modiﬁcation (fractionating of bovine milk fat into different fractions) of milk fat can be carried out by fractionation (Ali and Dimick, 1994). Commercial dairy industries commonly use dry fractionations to improve the texture and flavour properties of dairy products (Grall and Hartel, 1992). Nadeem et al. (2013) found in a study that long chain and short-chain fatty acids can be increased by fractionation of milk fat. Fractionation improves the functional properties of milk fat. Low melting fractions of milk fat can be used in a wide range of functional dairy products. Cheese is worldwide extensively used dairy product. Researchers have tried to improve the unsaturated fatty acid composition of milk fat by blending with vegetable oil but the use of vegetable oils in cheese has a negative impact on texture, functional properties, excessive lipolysis and flavor characteristics of cheese (Wijesundera and Watkins, 2000;Yli-Jokipii et al. 2001; Dinkci et al. 2011). There are many factors which affect the texture and rheological properties of the cheese. These factors also effect the appearance, functional properties of the cheese and also effect the flavor of the cheese which are very important for consumer. On the base of texture varieties of cheeses are differentiated. Important property for the determination of differences in the cheeses is texture as compared to other flavor and taste property (Wendin et al. 2000) Free fatty acids of cheddar cheese produced in the result of lipolysis are the precursors of flavor compounds (Smit et al. 2002; McSweeny, 2004). The suitability of low melting fractions of milk fat as a substrate in the manufacturing of cheddar cheese has not been previously investigated. Availability: Items available for loan: UVAS Library [Call number: 2205,T] (1). Place hold Add to cart (remove)
	773.	Hand Book of Entomological Terms by Prof. Dr. Muhammad Ashfaq \| Waseem Akram Qazi. Edition: 1stMaterial type: Book Publisher: Lahore: Pak Book Empire; 1998Availability: Items available for loan: UVAS Library [Call number: 595.7 Mushtaq 14440 1st 1998 Parasitology] (1). Place hold Add to cart (remove)
	774.	No cover image available Production Of Laccase By Immobilized White Rot Fungi And Its Application For The Decolorization Of Textile Effluent Dyes by Iqra Ghulam Rasool (2012-VA-579) \| Ms. Faiza Masood \| Dr. Muhammad Tayyab \| Prof. Dr. Tahir Yaqub. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Textile wastewater effluent contains several types of dyes that are toxic, carcinogenic, and dangerous for environment (Nyanhongo et al. 2002). More than 10,000 different kinds of dyes and pigments are used in dyeing and textile industries. Approximately 8, 00, 000 tons colorant is produced annually and 10% of used dyes are enters the environment in the form of wastes. There are different types of textile dyes such as direct dyes, disperse dyes, reactive dyes, acid dyes, and basic dyes. Wastewater effluents discharge from textile industries contain more than 10-15% of these dyes (Kunamneni et al. 2007). Such wastewater effluents are being discharged into water stream without or after only partial treatments, causing water pollution and negatively affecting the aquatic life. The treatment of textile wastewater effluents are of major environment concerns (Nyanhongo et al. 2002). White rot fungi (WRF) is a wide class of fungi and it is mostly comprised of basidiomycetes, ascomycetes and lignin-decomposing fungi (Wesenberg et al. 2003). WRF are the most abundant wood degraders, and are so named because they leave a bleached appearance of the wood fibers following their attack. WRF has the ability to degrade contaminants by virtue of the nonspecific nature of its extracellular ligninolytic enzyme system (Nyanhongo et al. 2002) The white rot fungus is also known as lignin degraders because it degrades lignin effectively due to some enzymes present in it. The important enzymes involves in degradation of lignin are following: (i) lignin peroxidase: It oxidizes both phenolics and non pheolics compounds, (ii) manganese-dependent peroxidase, (iii) laccase: It oxidises phenolic compounds and produce phenoxy radicals and quinones; (iv) glucose oxidase and glyoxal oxidase used for H2O2 production, and (v) celloulobiose quinone oxidoreductase for quinone reduction (Kunamneni et al. 2007). Laccase (oxidoreductase, EC 1.10.3.2) belongs to polyphenol oxidases group of enzymes. Copper atoms are present in the catalytic center of enzyme so it is also known as multicopper oxidases (Baldrain et al. 2006). The molecular mass of laccase is 50–100 kDa (Couto and Toca 2006). According to the mechanism of laccase, it carries out the reduction of oxygen to water along with the oxidation of its substrate. Laccases oxidize wide range of compounds such as polyphenols, methoxy substituted phenols, aromatic diamines, and other compounds (Baldrain et al. 2006). The substrate specificity of laccase is very wide and broad. In ortho and para substituted mono and polyphenolics substrate, it carries out reduction by removing hydrogen atom from hydroxyl group. In aromatic amines, it removes one electron and produces free radicals. These radical are able of many other reactions such as depolymerization, repolymerization, demethylation, or quinone formation. During lignin degradation, oxidation of methoxyhydroquinones followed by auto-oxidation of the methoxysemiquinones. Furthermore, formation of superoxide anion radicals undergoes more chemical reactions. The activity of laccase may be increased by using different kind of activators, such as ABTS (2, 2-azinobis (3-ethylbenzthiazoline- sulfonic acid), 1-hydroxybenzotriazole, or compounds secreted by fungi (Abadulla et al. 2000). In the presence of ABTS, the decolorization efficiency increases up to 45% (Tong et al. 2007). Laccases have been produced from different kind of sources such as some species of fungus like white rot fungi, different kinds of bacteria, and some insects (Heinzkill et al. 1998; Diamantidis et al. 2000; Dittmer and Kanost 2010). This enzyme is widely distributed in Ascomycetes, Deuteromycetes, and Basidiomycetes, WRF is the major source for the production of laccase enzyme because this fungi is involved in metabolism of lignin (Bourbonnais et al. 1995). There are many applications of fugal laccases such as effluent decolorization discharged from industries, degradation of pulp released from paper and pulp industries, removal of phenolics compounds from alcohols, synthesis of organic compounds, biosensors, pharmaceutical sector (Yaver et al. 2001). This enzyme can also improve animal performance, increase nutrient digestibility when added to animal feed (Sharma et al. 2013). Fungal laccases have higher redox potential of +800mV as compared to plants or bacterial laccases that’s why there are several applications of laccase in biotechnology field especially in the decolorization of dyes. Enzymes can be produce in larger amount so that laccase based decolorization techniques are advantageous to bioremediation technologies (Devi et al. 2012). Pleurotus is a species of WRF and few laccases have been isolated, purified and cloned from Pleurotus species. However, the physiological signiﬁcance of laccase produced by the white rot fungi is not known. Literature reports that mycelia culture of Pleurotus ﬂorida produces at least two laccases (L1 and L2), one of which appears to be linked with the mycelia growth of the fungus (Das et al. 1997). The L1 isoenzyme is dominantly involved in the dye decolorization process. Submerged fermentation (SmF) is a type of fermentation in which microorganism is grow in liquid broth and enzymes and other compounds are released in the broth. This technique used free liquid substrates such as nutrients etc. The substrates are utilized quite rapidly and constantly supplemented with nutrients. In fermentation broth, microorganisms are provided with appropriate nutrients and conditions such as high oxygen concentration for the production of microorganism in order to get desired products. In this technique, mycelium formation is takes place. Mycelium formation can lead to pellet formation which hinders the diffusion of oxygen and nutrients in the medium. In recent times, wide variety of secondary metabolites has been produced commercially by fungal fermentation. Fungi are complex microorganism that is different morphologically and structurally at different phases of their life cycles form others. It is also differ in form between surface and submerged growth in fermentation media. Nature of liquid media also effect on the growth of fungi. Different culture conditions such as temperature, pH and mechanical forces are important for fungi growth but these parameters are different for different fungi (Kossen et al. 2000). Enzymes act like catalyst and they speed up any chemical reaction without being used up in the reaction. The uses of enzymes are advantageous due to its several characteristics and features as compared to conventional chemical catalyst. However, there are some problems that can reduce the operational life time of any enzymes. These problems includes; non-reusability of enzyme, the instability of their structure, high cost of isolation, purification and characterization and their sensitivity to harsh condition of reaction. These objectionable limitations of enzymes may be reduced by the use of immobilized enzymes. There are mainly four procedures present for immobilization of any cell (Kunamneni et al. 2007). These procedures are following: adsorption, gels entrapment or polymer entrapment, covalent coupling, and cross-linking to insoluble matrices (Brouers et al. 1989). For immobilization different kinds of matrices, such as agar, calcium alginate beads, polyacrylamide gel, etc have been used. In order to select suitable matrix and immobilization procedure, type of the cell, type of the substrate, medium conditions and products are major factors (Prasad et al. 2005). During immobilization, enzyme is fixed to or within solid matrix in order to get heterogeneous immobilized enzyme system. Naturally enzymes are bounded to cellular membrane in living cells for most cases so in order to get the natural form of enzyme, immobilization of the cell is done. This immobilized system stabilized the structure and activity of the enzyme for longer period of time. When enzymes are immobilized, they are stronger and more challenging to harsh environment changes. Immobilization also allows easy recovery of enzyme and also it’s multiple re-use in processes. The Michaelis constant of immobilized enzymes increased and their activity usually lowered when compared to free enzyme. When immobilization procedure applied, different structural changes introduced to an enzyme which leads to these alterations. Immobilization helps to maintain the structure, stability and activity of enzyme for longer time without being de-activated (Kunamneni et al. 2007). Immobilization represents an attractive option to obtain enzymatic catalyst for dyes treatment. This technique provides different advantages: (i) it prevents enzyme leakage even under harsh conditions; (ii) it facilitates enzyme use in different types of reactors like packed bed, stirred tank and continuous bed; (iii) it causes stabilization of the enzyme tertiary structure, usually as a consequence of multipoint attachment of the enzyme to the support, providing enzyme rigidity. The stabilization provided by covalent bonding is usually counter balanced by partial enzyme deactivation. This negative effect can be mitigated by carefully optimizing the immobilization conditions in order to maximize the ratio between immobilized enzyme activity and activity of the primary enzyme solution (Pezzella et al. 2014). Immobilization of laccase was extensively investigated with broad range of different techniques and substrates. Inactivation of enzyme occurs when oxidized products are absorbed on the surface of the immobilization matrix support (Kunamneni et al. 2007). Textile industries discharged wastewater effluents comprised of toxic dyes are dangerous for aquatic life and have harmful impacts on the environment. There are different methods including physical and chemical methods which are use previously to decolorized dyes. These physical and chemical methods are quite costly, prolonged, ineffective and insecure (Shang and Chi 1996; Mechichi et al. 2006). In comparison to these methods, biological processes are quite suitable and helpful. Biological processes are less expensive, safe and take less time and effective. Biological processes used microorganisms to decolorize dyes. Laccase as an extracellular oxidative enzyme produced by white rot fungi are eco-friendly and cheap. In order to decolorize dye, three day old fermentation media is used and dyes is added in the broth. To get 70-75% decolorization in fungal culture, more than 48 hours are required. Pleurotus Species produced laccase efficiently and this laccase could decolorize malachite green dye upto 70% within 24 hours (Yan et al. 2009). Laccases can degrade several dye structures such as phenol, polyphenols and diamines (Abadulla. et al. 2000) to degrade harmful compounds into less toxic compounds and may be helpful to reduce environmental pollution (Gianfreda et al. 1999). The specific features and mechanism of laccase helps to make it a versatile biocatalyst. Due to its versatility, it is suitable for several applications such as biopulping, biobleaching, and industrial wastewater treatment. Due to the severe environment legislation, the textile industry is trying to introduce new innovative technologies for the treatment of wastewater effluents discharged from textile industries. Laccase has potential to degrade dyes of various chemical structures so that development of techniques based on laccase seems an attractive and suitable solution in decolorizing dyes (Madhavi and Lele 2009). The decolorization and detoxification of the wastewater effluent would help to use it again and again in dying process in textile wet processing. The major purpose of this research is to decolorize the textile effluents dyes discharged by industries after partial treatment and cause water pollution and have negative effect on aquatic life and ecosystem. It is necessary to established most effective and efficient method to produce sufficient amount of laccase enzyme through immobilized white rot fungus and then utilized it in the process of bioremediation. Availability: Items available for loan: UVAS Library [Call number: 2208,T] (1). Place hold Add to cart (remove)
	775.	No cover image available Retrospective Study Of Fatal Dengue Hemorrhagic Fever In Lahore City by Shumaila Abdusattar (2012-VA-523) \| Prof. Dr. Mansur-ud-din Ahmad \| Prof. Dr. Muhammad Athar Khan \| Dr. Jawaria Ali Khan. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Dengue fever is one of the most common mosquito-borne viral diseases of human beings. It has become a major reason for public health concern internationally over the recent years because of disease morbidity and mortality. Globally around 2.5 billion people are living in areas where dengue viruses can be transmitted. Spread of mosquito vectors & viruses in geographical distribution are two main reasons of rise in incidence and prevalence of dengue fever & appearance of dengue hemorrhagic cases. Urban areas of the tropics have been identified to be highly endemic. According to estimates made by WHO around 50–100 million infections of dengue are prevalent every year globally. (Deen et al. 2006) In Pakistan first dengue outbreak was reported in Karachi in 1994 as environmental conditions are conducive to Aedes mosquito breeding. Economic and security related migration introduced virus to Lahore as well. According to Punjab Health Department 590339 suspected cases were reported in Lahore & 21685 confirmed by serology. It has been observed that 5-10% of these cases develop DHF.(Mahmood et al. 2013) Dengue is mainly transmitted by mosquito vector i.e. Aedesaegypti and can also be transmitted by A.albopictus to a lesser extent. Virus that causes dengue has four different types that are closely related to each other.Infected female mosquitoes transmit this virus to human beings through bite.An infected mosquito can transmit this virus to humans for the rest of its life. Symptoms of dengue range from very mild fever to very high fever including intense headache, retro-orbital pain, muscular and joint pain, and rashes. There is no vaccine or any specific medicine to treat dengue. Patients having dengue fever are advised to take rest and drink ample fluids. They are advised to use paracetamol in order to reduce high grade fever or visit the physician if fever persists. Recovery from infection by one provides lifelong immunity against that serotype but confers only partial and transient protection against subsequent infection by the other three. There have been enough proofs showing that subsequent infection increases the risk of severity of disease which can result in DHF (WHO). Leaking of plasma, fluid accumulation, respiratory distress, and intense bleeding and organ impairment makes severe dengue a fatal complication. Warning signs includes decrease in temperature (below 38°C/ 100°F), severe abdominal pain, rapid breathing, bleeding gums, malaise, and restlessness,continuous vomiting and hematemesis. These can occur three to seven days after first symptom recognition. In order to prevent complications and minimize the risk of death adequate and timely health care is required in next 1-2 critical days.(Halstead 1980) In 1950s when dengue epidemics occurred in the Philippines and Thailand then Dengue hemorrhagic fever was first identified. Till 1970 nine countries had encountered epidemic DHF and this number has increased more than four times and keeps on rising. Today rising number of DHF cases are causing increased dengue outbreaks in the Americas, and in Asia, where all four dengue viruses are endemic. DHF has turn out to be a prominent reason of hospitalization and demise among kids in several states.In Asia, widespread DHF has enhanced geologically from Southeast Asian regions to west China. Various regional states of the South and Central Pacific have encountered significant or slight DHF outbreaks.In previous twenty years deterrence and management has come to be more immediate with the escalating geographical spreadof dengue and dengue hemorrhagic fever and higher ailment occurrence (Gubler 2002). In the absence of bleeding or organ manifestation, DHF is medically challenging to diagnose, and the numerous etiologic agents can barely be distinguished by clinical tests. The specified diagnosis of DHF depends mainly on laboratory testing.(Drosten et al., 2002) Availability: Items available for loan: UVAS Library [Call number: 2211,T] (1). Place hold Add to cart (remove)
	776.	No cover image available The Diversity, Distribution And Phenetic Relationships Of Herpetiles Of District Kasur by Waqas Ali (2008-VA-609) \| Dr. Arshad Javid \| Ms. Sana Ashraf \| Prof. Dr. Muhammad Ashraf. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Amphibians and reptiles (herpetiles) are cold-blooded animals. Mostly lay eggs, fertilization is external in amphibians and internal in reptiles. Amphibians undergo metamorphosis to reduce competition between larval (usually aquatic) and adult (terrestrial) stage. The reptiles are found in a variety of habitats throughout the world except some isolated islands. Diversity and abundance of herpetiles is dependent on climate and geographic position of any region and is also directly linked with some avian and mammalian species. Amphibians and reptiles are important bio-indicators of climate change and the survival of both taxa is under continuous threat due to deforestation, habitat loss, fragmentation, urbanization and pollution. Data on local distribution patterns is helpful in regional conservation planning (Petrov 2004). Herpetiles are the important members of environment and have important position in pyramids. They control the population of many insects and pests, and themselves are source of food for many predators. Amphibians and many reptiles transfer nutrients from aquatic to terrestrial ecosystems and if they are removed from any ecosystem, the algae communities, invertebrate populations, predator dynamics, leaf litter decompositions and nutrient cycling can be affected (Baig 2006 ). Pakistan has the world’s rarest animals and plants but these are now in danger due to habitat loss, overuse and anthropogenic activities. The herpetofauna of Pakistan is represented by 219 species; 24 species of amphibians and 195 species of reptiles out of these 9 species of amphibians and 13 species of reptiles are endemic to Pakistan (Khan 2004). The herpetiles received less attention of scientific community hence these taxa remained unexplored in Pakistan. There is extreme scarcity of data on the distribution of various amphibian and reptilian species in the country (Khan 2006). The only authentic source of information till so far on herptiles in this region is the data collected and compiled by Daniel and Khan (2002, 2006). In Pakistan arid to semi-arid climatic conditions prevail that make it, an amphibian poor country however, humid riparian conditions in the Indus Valley, streams in the northern Himalayan sub-mountainous region and water channels in the western Baluchistan highland are home to some 24 amphibians, that belong to four families viz. Bufonidae, Megophryidae, Microhylidae and Ranidae (Khan 2011). The reptilian fauna of Pakistan is represented by 195 species belonging to 23 families viz. Cheloniidae, Dermochelyidae, Emydidae, Testudinidae, Trionychidae, Crocodylidae, Gavialidae, Agamidae, Chameleonidae, Eublepharidae, Gekkonidae, Lacertidae, Scincidae, Uromastycidae, Varanidae, Leptotyphlopidae, Typhlopidae, Boidae, Colubridae, Elapidae, Hydrophiidae, Viperidae and Crotalidae (Khan 2004). In Pakistan, due to over hunting the marsh crocodile is in danger and nearly extinct. Now this species only occur in small numbers in Sindh and a few areas in Balochistan. The gharial is now few in numbers and found only between the Sukkur and Guddu barrages. In addition monitor species are heavily hunted for their skins. 72 snake species found in Pakistan and out of these, 14 marine and 12 terrestrial snake species are poisonous; most well-known are the Indian cobra, common krait, saw-scaled viper and Russel's viper. The snake venom is a complex mixture of enzymes including the pro-coagulant, non-enzyme proteins, peptides, carbohydrates, amines, lipids and metal ions. The venom exertsneuro-toxic, cytotoxic and hemotoxic effects. Genus monospecific Teratolepsis and Eristicophis is endemicto Pakistan. The Chagai Desert is of particular interest for reptiles, with six species of reptiles including five lizards and one snake are endemic to Pakistan and a further six species found only here and along the border of Iran. Important populations of marine turtles nest on Pakistan's southern beaches. The internationally threatened species of reptiles in Pakistan are Green and olive turtle, mugger, gharial, central Asian monitor, Indian python, central Asian cobra (Groombridge 1988). District Kasur is located between two rivers of the Punjab province, namely river Ravi and Sutlej. This district is bounded by India from east, Okara from south, Sheikhupura from north-west and Lahore covers its north side. District Kasur is administratively divided in to four Tehsils i.e. Kasur, Chunian, Pattoki and KotRadhaKishan. The district lies 150 to 200 m above sea level and experiences extreme hot weather during summer (April -September) to severe cold in winter (November to February). The difference between day and night temperatures is considerable. Average annual rainfall is 500 mm. Water logging and salinity has affected large area of the district making underground water brackish (Anwar 2012). Reptiles and amphibians have historically taken less concern as components of many ecosystems. Many ecosystems support high densities of herpetofaunaas compared to endothermic vertebrates because they make efficient use of energy (Pough 1980).Moreover, high densities of reptiles and amphibians presentin many ecosystems provide major role for the trophic transfer of energy and matter except one study that shows high amphibian densities affect ecosystem processes (Wyman 1998). Moreover, the high rate of herpetofauna decline increase the interest in scientific communities for documenting the abundance and status of amphibians on a global scale (Collins and Storfer 2003). Despite the high densities of herpetiles present in many ecosystems, it is difficult to sample them quantitatively because many snakes and several species of amphibians and lizards live in burrows making their capture difficult (Conant and Collins 1998). Furthermore, the cryptic nature of herpetiles, hibernation in winter, climatic factors affects the activity and the presence or abundance of amphibians and reptiles species (Zug et al 2001).As a result, many methods have been developed to sample herpetofauna such as drift fences with pitfall and funnel traps are a good way to maximize the number of individuals and number of herpetofauna species captured (Gibbons and Semlitsch, 1982; Enge 2001). On the other hand, drift fence surveys can be time-intensive and inappropriate applications can result in low capture rates of some species or high mortality of captured animals. Moreover, documenting the presence of all species occurring in a given area is difficult, if not impossible, and can be particularly time-intensive in systems with many rare species (Dodd 1991). Herpetological studies carried out in Pakistan are outdated and are mainly limited to Sind and Baluchistan provinces (Minton 1966; Mertens 1969). There is paucity of data on herpetiles of Punjab, densely populated province of the country. There is dire need to explore herpetofauna of the province in general and the district kasur is specific due to geographic location and climatic condition. Present study was therefore planned to explore herpetofauna diversity and distribution patterns of various amphibians and reptiles inhabiting district Kasur. Availability: Items available for loan: UVAS Library [Call number: 2215,T] (1). Place hold Add to cart (remove)
	777.	No cover image available Effect Of Yeast Supplementation On Growth Performance In Non-Descript Male Cattle Calves In Summer by Muhammad Tariq Iqbal (2006-VA-209) \| Prof. Dr.Khalid Javed \| Dr. Muhammad Qamer Shahid \| Dr.Saeed Ahmad. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Livestock plays an important role in the economy of Pakistan. There are about 72 million heads of large ruminants, playing a vital role in rural economy of country,providing meat and milk to the masses. Withthe increase in human population, meat and milk demands are increasing. Thereis a majorcontribution of beef in total meat productionand cattle have a major share in total beef production. The meager feed resources are major factor for compromised growth performance of our livestock. Feed additives are feed ingredients of non-nutritive nature that stimulate growth, improve efficiency of feed utilization, and also beneficial for health. Products that improve feed efficiency are particularly important because feed costs are a major expense in animal production. Yeast is aunicellular eukaryotic organism much different from bacteria. Among yeast Saccharomyces cerevisiaespecies are important and currently well accepted in ruminant feed. Incorporation of yeast (Saccharomyces cervesiae) culture to animal feed has become a common practice in ruminant feed. Many yeast culture based products have been shown to affect dry matter intake, stabilizing rumen pH and digestibility of different nutrients (Callaway and Martin, 1997). The main purpose of suchadditives in ruminant feed is to prevent rumen flora disorders and disturbances. The inclusion of yeast increases consumption of dry matter, utilization of fiber, increase in average daily gain and yeast cells, and also increases absorption of phosphorus, magnesium, calcium, copper, potassium, zinc and manganese. Due to the greaterconcerns with antibiotics and other growth stimulants in the animal feed industry, research of other feed additives, such as direct-fed microbial (DFM), has increased.DFMs are naturally occurring living microorganisms which are supplemented to enhance microbial population of rumen, and to stabilize rumen PH. DFMare frequently used in milk replacers for gastrointestinal health, welfare, as well as improving average daily gain, daily dry matter intake, and feed efficiency. Practice of these supplements in calves as a preventative measure has increased from 13.1% to 20% from 1996 to 2007 in USA (USDA, 2008). Basic rumen studies shows that yeast apparently does not affect the digestibility, it only alters the degradation curve causing reduction in lag phase before digestion commences, thereby increasing the rate of degradation (Williams et al. 1991). It was also observed that inclusion of yeast may increase cellulolytic microorganisms in rumen. Birkelo and Berg (1994) observed that a yeast culture additive improved performance of yearling cattle fed corn-based finishing diets containing less than 10% roughage.Similarly, yeast addition was found to improve rumen fermentation by enhancing the bacterial population, soultimately increase the growth of ruminants (Beauchemin et al. 2003).Yeast culture addition increasedaily dry matter intake and average daily gain (Cole et al. 1992; Mir and Mir, 1994). According to Blake et al. (1993) and Girard et al. (1997) yeast culture noticeably increase the cellulolytic activities of rumen microorganisms in such a way that they increase their total numbers, improve fiber digestion, decrease lactate accumulation, lessen the concentration of oxygen in rumen fluid and improve utilization of starch supplied in the feeding ration. In this way they influence (inhibit) the rate of volatile fatty acids production and, thus, increase the permanency of rumen environment and improve the intensity of digestion. Yeast culture has also directly enhanced rumen fungi, which may improve fiber digestion (Chaucheryaset al. 1995). Yeast culture addition impact on ruminal lactic acid metabolism; prevent the accumulation of lactic acid in the rumen when they are fed on yeast supplementation. Sullivan and Martin (1999) described that yeast culture supplementation improved the utilization of lactate and digestion of cellulose. Yeast culture may improve ruminal fermentation because they are able to diminish excess oxygen (Newbold, 1996).So they provide optimal environment for fermentation. They amplified the number of rumen protozoa and NDF digestion in calves fed straw-based diets (Plata et al. 1994). Yeast culture has also been revealed to encourage acetogenic bacteria in the occurrence of methanogens (Chaucheryaset al. 1995), which may result in more effective ruminal fermentation. The effect of altered doses of yeast (S. cerevisiae) (0, 3, 6 and 12 g of yeast/day respectively) on the lactating performance of Holstein dairy cows was described by Nikkhah et al. (2004). They concluded that the live yeast(LY) had a favorable effect on the rumen health. Other available data indicated that in the rumen fluid of animals receiving supplements of LY the total content of volatile fatty acids , the percentage of propionic acid (Sullivan and Martin, 1999), acetic acid were enhanced (Nursoy and Baytok, 2003) and the total numbers of ruminal bacteria were also significantly increased (Sune, 1998; Alshaikh et al. 2002; Kamra et al. 2002). The positive effect of yeast may be due to increased dry matter intake reported byWohlt et al. (1991) and Williams et al. (1991).The increase in average daily gain and other productive parameters can be the function of increased dry matter intake and outflow rate of digested material from rumen. The dietary supplementation of yeast culture showed significant increase in degradability of roughage in 6 h (P<0.05) after live yeast addition(Ando et al. (2004).Moreover it is stated that yeast also contribute in maintaining rumen pH, reducing the risk of acidosis, improve rumen metabolism by stabilizing anaerobic rumen environment. It also regulates the digestibility approach, a positive influence on feed efficiency. It also maintains balance of ruminal ammonia concentration,improve feed efficiency in young calves and ultimately increase daily gain in cattle calves. The yeast supplementation in ruminant diets is being practiced at commercial herds both beef and dairy, especially where high concentrate rations are in use. Based on the existing knowledge of live yeast supplementation and the inadequateinformation on the supplemental use of yeast in calves feedand effects on growth performance, under local conditions, the objective of present study was to determine the effects of yeast supplementation in non-descript male cattle calves on growth. Availability: Items available for loan: UVAS Library [Call number: 2214,T] (1). Place hold Add to cart (remove)
	778.	No cover image available Phylogenetic Analysis Of Major Fresh Water Carps Of Pakistan Through DNA Barcoding by Madeeha Awan (2012-VA-650) \| Dr. Ali Raza Awan \| Dr.Sehrish Firyal \| Dr. Muhammad Tayyab. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Pakistan is bestowed with the land of geological and topographic diversity. The ecological variation is uniformly reflected in all water lands of the country. Pakistan has significantly huge natural inland water resources in the form of ocean, rivers, networks of canals and lakes (Mirza and Rafique 1994). The country is blessed with one of the largest freshwater resources in the world correspondingly large number of freshwater living vertebrates is available from which fishes are quite significant considering the ecological balance and its consumption as food. It is one of the food sources which solely provide all the essential nutrients, minerals and high quality protein which is not common from other food items (Muhammad Rafique 2007). Out of 33,100 fish species identified worldwide as per Fish Base organization report published in April 2015 (http://www.fishbase.org). Out of 233 (indigenous and exotic) freshwater fish species, 78 economically important indigenous fish species are available in the water bodies of the Pakistan. According to this report fishes are the largest vertebrate group, constituting about 50% of all vertebrate species. Systematically fishes are widely spread in nature, ranging from prehistoric jawless fishes to cartilaginous fishes and also from old to current day bony fishes. The taxonomic placement of these fishes shows their belonging to class Actinopterygii, sub-class Teleostei, 3 cohorts, 6 superorders, 13 orders, 30 families and 86 genera (Rafique 2007; Rafique and Khan 2012). Demand of fish is increasing day by day not only being the naturally available source of food rather the health benefits associated with its consumption. This necessitates to develop a more efficient and sustainable system to increase their growth. DNA based technologies are being competently employed in aquaculture production fields for pedigree information. Introduction 2 Moreover, tagging each fish individually is not an easy task so these DNA based methods help in avoiding intrusion of environmental factors which may result from raising fish families in separate reservoirs (Martinez 2007). Fish identification has been traditionally based on phenotypic features. However, due to high multiplicity and morphological similarity, in many cases, fish at its different developmental stages are hard to be identified by relying only on morphological characteristics (Victor et al. 2009). For phylogenetic studies of the animals the use of mt-DNA is very common and reliable compared to nuclear DNA due to its high evaluation capabilities, which results in gathering of differences even between closely related species (Moore 1995; Mindell et al. 1997).“Bar-coding gap" is the name given to the property that is inter-specific variation in this region is markedly higher than intra-specific variability (Hebert et al. 2003). Approximately each and every animal contain 13 protein-coding genes (PCGs) as an essential component of their mt-genome (mitochondrial genome), which helps in encoding of several proteins responsible for the oxidative phosphorylation machinery (Richly A et al. 2004, Song H et al. 2008). Being maternally inherited, mt-DNA is better as compared to genomic DNA such as quick evolution, less exposure to recombination, high copy number, high conservation, little duplications and negligible intergenic regions (Waugh J 2007, Xu J 2005). Clonal inheritance is the main property which makes it more worthy and suitable marker in comparison with other available molecular bio-diversity tools (Galtier et al. 2009). DNA barcoding is one of the taxonomic tools. It is being used to distinguish animal species based on the small segment of their genome such as mitochondrial DNA, designated as an identification tag or barcode of particular species (Herbert et al. 2003). Identification of species using DNA barcoding is quite debatable. Still many researchers consider it as a reliable Introduction 3 basic tool to ascertain the genetic characterization of diverse eukaryotic species, especially after establishment of the Consortium for the Barcode of Life (CBOL) in 2004 [http: //www. barcodeoflife.org/]. Ideally DNA barcoding should provide quick, reliable and cost effective species identification, even to those user who has little or negligible knowledge of taxonomy (Herbert et al. 2003, Hajibabaei M et al. 2005, Herbert et al. 2005). Identification of unknown source is possible by using distance based tree which can be created by comparing unidentified sequences against retrieved known sequences of different species (Hebert et al. 2003, 2004a, 2004b). DNA barcoding identification system has been recognized universally as standardized method to recognize species and unveil their genetic diversity (Herbert et al. 2003; Herbert et al. 2004). The ideal DNA barcoding is robust, with conserved, universal primer binding sites, reliable DNA amplification and sequencing. From whole mitochondrial genome, Cytb (Cytochrome b) is considered as one of the most promising gene due to its function and structure, even it is composed of both conserved and rapidly evolving regions which are more related to evolutionary studies (Farias et al. 2001). To identify unknown or ambiguous species it is considered more reliable as it contain sequences which provide the specific information about particular species (Parson W et al. 2000a, 2000b). It is also one of the most useful genetic marker to identify the linkage within families and genera (Meyer 1994; Teletchea 2009). Cytb gene is involved in comparative studies which results in development of new classification schemes and been used to assign a genus to a newly described species as well as improve the understanding of evolutionary relationships of genra (Castresana 2001). Introduction 4 One of the core objectives of this study is to identify and classify four freshwater indigenous fish species of Pakistan, which includes Labeo rohita (Rohu), Labeo calbasu (Calbans), Catla catla (Thalla) and Cirrhinus mrigala (Mori) using Cytb gene. Morphologically, Labeo rohita shows compressed body with convex dorsal profile while mouth bears a pair of barbells and fins are gray and orange in color. Catla catla shows compressed body with broad head. Mouth is wide with thick lower lip. Labeo Calbasu`s dorsal profile is more convex than that of abdomen and two pairs of barbells are present on fringed upper lip. Cirrhinus mrigala has elongated and streamlined body shape which is grayish and silver in color (Bhuiyan AL 1964; Rahman AK 1989). All of these species are found in freshwater bodies mostly lakes, rivers and ponds except Labeo calbasu which is a bottom dweller. These fishes are harvested by using rod and line or by using nets (Talwar PK and Jhingran AG 1991). These fishes are known as major carps and economically very important for the country due to their high consumption as food. These fishes are also used for fish farming due to their greater muscle mass thus also possess very high commercial value for fish farming business. Another objective of this study is to resolve the taxonomic anomalies related to above mentioned species. Selling of fish meat in mislabeled packaging is a serious issue now days. Most commonly Hypophthalmichthys molitrix (silver carp) and Ctenopharyngodon idella (grass carp) are sold under the label of Labeo rohita. DNA barcoding is also helpful in detecting such fraudulent mislabeling. It would be the first study in Pakistan to genetically characterize commercially important fish species. It would help scientists to know about their phylogenetic and taxonomic status and also assist fish fanciers to genuinely identify their species of interest. Identification of fish species is also important for conservation of biodiversity as it helps in preservation and Introduction 5 identification of endangered species by generating their barcodes from even minimal evidence available. This study has paved the way for molecular biologists to study taxonomic ambiguities at sub species level using SNP (Single nucleotide polymorphism) based identifying marker. Availability: Items available for loan: UVAS Library [Call number: 2207-T] (1). Place hold Add to cart (remove)
	779.	No cover image available Effect Of Supplementation Of Fructo-Oligosaccharides And Manno-Oligosaccharides On Serum Biochemical Parameters In High-Fat Fed Rats by Anam Jeelani (2013-VA-593) \| Dr. Muhammad Quaid Zaman \| Prof. Dr. Habib ur Rehman \| Dr. Nauman Zahid. Material type: Book; Literary form: not fiction Publisher: 2013Dissertation note: Obesity is a public health issue, leading to metabolic disorders usually associated with the formation of cardiovascular disorder, fatty liver diseases and diabetes type II (Dewulf et al. 2006). Many factors considered to emergence of dyslipidemia and obesity (Parekh et al. 2014). Imbalance between intake of energy and utilizing of energy cause obesity, it might be caused by various factors including food intake, lack of physical activities, modern life style inherited, hypertension, and type of diet (Arora and Sharma 2011). Many species of micro-organisms occupied gastrointestinal tract (GIT). But in colon portion most important populations are existing and showing symbiosis relationship which helps in maintaining good health (Roberfroid et al. 2010).GIT microflora is participating in metabolic disorders and obesity as well, indicating the fatty animal and human having different gut microbiota composition as compared to slim ones (Sanz et al. 2010). Reductions in Bacteroidetes and rise of the relative abundance of Firmicutes have been associated with obesity (Parnell et al. 2011). Bifidobacteria play a part in the development of obesity and its related co-morbidities (Delzenne et al. 2011).It was found that decreased number of Bifidobacteria at birth was associated with overweight later in childhood (Kalliomaki et al. 2008). Diabetes mellitus type II patients having very less amount of such type of bacteria as compared to non diabetic person (Wu et al. 2010). Man considered as Holobiont or super-organism because of in its composition only 10% of human cells while rest of 90% are micro-organisms (Lederberg 2000). Prebiotics are short chain length carbohydrates (Hang et al. 2013), non-digestible food constituents which significantly effects on the person by enhancing the metabolic activity, growth and also induce the production of GIT microbiota (Manning and Gibson 2004) and induce the growth of beneficial microflora and overcome the pathogenic organism (Gibson et al. 1995). The small intestine not having the enzymes for the decomposition of prebiotics, finally they reach the large intestine (Strickling et al. 2000; Gibson and Roberfroid 1995) where they are utilized by the beneficial microbiota to produce volatile fatty acids (VFAs) (Yang et al. 2007), finally the pH of the brush border microenvironment goes down and reducing the pathogenic effects. Generally, intestinal microbiota considered as important for health issues and immunomodulatory activities and food intake induce and stimulate the GIT (Rehman et al. 2007). Microbiota has significant roles in the host physiology, commencing from nutritional and metabolism, to infection and disease. Many evidences show, prebiotics in GIT stimulates many other systems as well for example lymphoid system (GALT). The expenditure of prebiotics can modulate defensive elements in GALT, secondary lymphoid tissues and blood circulation (Schley and Field 2007). This selectivity was shown for bifidobacteria, which may be promoted by the ingestion of substances such as fructooligosaccharides (FOS) and inulin (Gibson et al. 1995), transgalactosylated oligosaccharides (Tanaka et al. 1983). FOS is an important group of prebiotics, which induce the production of bacteria in lower intestinal tract (Hang et al. 2013). FOS are oligosaccharides that found in plants for example in garlic, onion, artichoke, chicory, asparagus, banana, and in different plants. FOS composed of linear units of fructose and link together by beta (2-1) linkage.2 to 60 fructose number units together and end on glucose. Small intestine does not having the property to digest and hydrolysed the dietary FOS. While it contain Glycosidases and until it will be in ceum and there is no structural change of it. Then in metabolism of gut microbiota FOS converted into small chain carbolic acid, L-lactate, Hydrogen, Carbondioxide and other compounds. It contain very significant properties while low sweetness, may be use as calorie free, non-carcinogenic and are considered as soluble edible fibre. Many important and beneficial physiological aspects such as rate of mineral absorption increases, reduction of phosphoplipds, total cholesterol and triglycerides. Many food products contain FOS infant formulas causes to their prebiotic effect induce the growth of non-pathogenic gut microbiota. Metabolism affects the feces nature as well as the speed of deposition, and dose of 4-15 g/day taken by a normal person definitely having low constipation rate, also assume as a major problem of growth in a society. (Sabater-Molina et al. 2009). FOS with significantly effected on GIT microbiota,lowering the GIT infections, and also possessing a recognized bifidogenic effect. Normally, prebiotics compounds collected by the extraction of many plants and then hydrolysed by enzymatic activity of sucrose (Hang et al. 2013). Manno-oligosaccharide (MOS) obtained from mannans present on the cell wall of a fungus Saccharomyces cerevisiae is a well recognized prebiotic that contain competitive attaching sites for many bacteria, that’s why having capacity for many ligands. Pathogens having the mannose-specific fimbriae adsorb to the MOS rather intestinal epithelial cells (Spring et al. 2000). Idea of prebiotics introduced in 1995, considered as non-digestable and partially fermented oligosaccharides found in food elements. Their presence in GIT may lower the effect of disease in colon. That idea about Prebiotics is revisited and possible mechanisms are proposed. Many functional aspects related to metabolism of prebiotics are assumed in sense of reducing many disorders (Van Loo 2004). It is assumed that prebiotics have effects on the immune system, as it stabilizes the intestine by enhancing the gut microflora especially lactobacilli and some selected strains, which may change can modify host innate and acquired defensive mechanisms and also help to save in respiratory infections (Hori et al. 2001). Main objective of our current study is to elucidate effects of MOS, FOS supplementation on production performance, physiological indices of health including blood glucose level, total cholesterol, triglycerides etc. Availability: Items available for loan: UVAS Library [Call number: 2222-T] (1). Place hold Add to cart (remove)
	780.	No cover image available Toxicopathological Alterations And Tissue Residue Of Colistinsulphate (Polymixin E) In Broilers by Muhammad Aslam (2012-VA-809) \| Dr. Muhammad Raza Hameed \| Prof. Dr. Muhammad Younus \| Dr. Syed Ehtisham ul Haque. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Poultry industry is the 2nd largest industry in Pakistan playing important role to meet daily protein requirement with an investment of more than 200 billion rupees. It is contributing 6.1% and 10.8% share in total contribution of agriculture and livestock the national GDP, respectively. Total poultry meat production in the last year was 987 thousand tones (Economic survey of Pakistan 2013-2014). Because of high density and lack of biosecurity measures, outbreaks of infectious disease are more common and often occurs. Different antibiotics are used rational and irrational to treat and control these outbreaks. Colistin is among the most widely used antibiotic in intensive poultry farming, it is used to combat gram negative bacterial infections particularly for collibacillosis and gastrointestinal tract infections (Hussain and Khalil 2013). Colistin belongs to the polymixins group of antibiotics. It is also known as Polymixin E. Polymixins are structurally related substances consisting of a cyclic peptide with a hydrophobic tail, mainly produced from gram positive nitrogen fixing bacteria Bacillus polymyxa. Polymixins are classified into six subtypes namely polymixin A to F and among these polymixin B and E are commonly used for the treatment of gram negative infections in animal and human beings. Colistin is mixture of two subtype’s colistin A (polymixin E1) and colistin B (polymixin E2). Commercially, it is available in two forms colistin sulfate and colistimethate sodium but colistin sulfate is more stable cationic water soluble salt (Landman et al. 2000) and is easily available in markets. colistin sulphate has lipophilic and lipophobic(hydrophilic) properties, that makes it easier to interact on bacterial cell membrane by displacing counter ions in lipopolysaccharides, influencing Mg efflux that’s why it is effective against gram negative bacteria (Poole and Sheffield 2013). Polymixins also presents antipyretic activity by binding endotoxins, especially lipid A, (the active compound of lipopolysaccharide). Owing to this property it is extensively used to treat gram negative infections in livestock and poultry industries (Hanasawa et al. 1990). The use of colistin was restricted in the past due to its toxic properties mainly in nephrotoxicity. There are reports available in the literature indicating that the parental use of colistin leads to the alterations of biochemical parameters in chicken i.e. increase in glutamic oxaloacetic transaminase, catalase activity, creatinine while, adversely affect total plasma proteins (Ibrahin et al. 2011). In ostriches it leads to the development of neurotoxic signs along with histologically odema formation in pericardium, intestinal serosa and heart was observed (Landman et al. 2000). Toxic effects of colistin were also reported in humans including nephrotoxicity, increased serum creatinine during the treatment (Falagas et al. 2005). As bioavailability for oral route is minimal and it is used parentally to treat systemic infections. Parenteral route may cause toxopathological effects in birds. Other effects includes change in aspartate aminotransferase and alanine aminotransferase which indicate liver damage. Red blood cells, white blood cells, packed cell volume and hemoglobin estimation were also decreased (Saleemi et al. 2013). The incidence of nephrotoxicity is severe but less common in oral administration as polymixins absorption through gastrointestinal tract is very slow and limited, and cannot be detected in plasma concentrations at ordinary doses (Falagas and Kasiakou 2006). Instead of all these toxic effects, now a days it is frequently used for the treatment against gram negative bacterial infections (Vaara 2010). The emergence of bacterial resistance has become an important public health hazard throughout the world). Due to irrational use of antimicrobial drugs against different diseases (Naqvi et al.2013. Colistin is one of the most widely used antibiotic in poultry industry against diseases like collibacillosis, salmonellosis and clostridial infections through drinking water, feed additives and parenteral route in developing countries like Pakistan (Tanweer et al.2013). Parenteral use of colistin sulphate may leads to the deposition of residues in different tissues. The presence of its residues in edible parts may lead to the toxicity as well as development of antibacterial resistance in human. Keeping in view the potential toxic effects and other hazards relating to the extensive use of colistin in poultry birds, present study has been designed to investigate dose dependent patho-morphological alterations and tissue residue in broiler chickens. Objective 1. To study the toxicopathological effects of parenteral administration of colistin in broilers. 2.Investigation of the tissue deposition of colistin as residues and its withdrawal period. Availability: Items available for loan: UVAS Library [Call number: 2221-T] (1). Place hold Add to cart (remove)
	781.	No cover image available Bioconversion Of Molasses To Glucose Oxidase Through Solid State Fermentation With Aspergillus Niger by Wajeeha Zafar (2012-VA-574) \| Dr.Abu Saeed Hashmi \| Dr. Muhammad Tayyab \| Dr. Muhammad Wasim. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Enzymes can be defined as soluble colloidal organic catalysts which are produced by living cells and are capableof acting independently of the cells. Glucose oxidase belongs to oxidoreductaseand is also called as glucose dehydrogenase. The glucose oxidase enzyme (GOX) oxidizes glucose to gluconic acid. In cells, it aids in breaking the sugar down into its metabolites. Glucose oxidasehas found several commercial applications including glucose removal from dried egg; improvement of color, flavor, and shelf life of food materials; oxygen removal from fruit juices, canned beverages. It has also been used in an automatic glucose assay kit in conjunction with catalase and chiefly in biosensorsfor the detection and estimation of glucose in industrial solutions and in body fluids such as blood and urine. It is often extracted from Aspergillusniger. GOX is a dimeric protein. The active site where glucose binds is in a deep pocket. This enzyme acts outside of cells, is covered with carbohydrate chains (Raba and Horacio 1995). Aspergillus niger is the potential source for the production of glucose oxidase and is preferreddue to its high production ration of extracellular enzyme. The ability of Aspergillus niger toutilize a wide range of waste products as nutrition source makes it more economical source of the enzyme (Rajesh et al .2002). The glucose oxidase fromA. nigerisalso an intracellularenzyme present in the mycelium of the organism. Aspergillus nigeris a filamentous fungus belonging to phylum Ascomycota. It Produces microscopic conidia on conidiophores that are produced asexually. Hyphae possess septa and are hyaline. They are supported at their base by foot cells from which conidiophores originate. It possesses long, double-walled, smooth and colorless to brown conidiophores.It is commonly foundin mesophilic environments such as soil, plants and enclosed air environments. It is capable of surviving in various environments, it is not only a xerophilic fungus, but is also a thermo tolerant organism. It is because of this property that it exhibits a high tolerance to freezing temperature(Schuster 2002). Glucose oxidase was first isolated from mycelia ofA. nigerandPenicilliumglaucumby Müller. A large number of microbes including bacteria and filamentous fungi have been used for the production of glucose oxidase. Glucose oxidase is produced at large scale using A. nigerand P. amagasakiense. Many bacteria are also involved in the production of this enzyme; some of these are Zymomonasmobilis, Micrococcus and Enterobacte(Yogananth et al. 2012). Glucose oxidase (GOX) from Aspergillus niger is a well-characterised glycoprotein consisting of two identical 80-kDa subunits with two FAD co-enzymes bound. Both the DNA sequence and protein structure at 1.9 A have been determined that these identical subunits size vary from 70 to 80 KDa. It catalyzes the oxidation of D-glucose (C6H12O6) to D -gluconolactone (C6H10O6) and hydrogen peroxide. It is produced naturally in some fungi and insects where its catalytic product, hydrogen peroxide, acts as an anti-bacterial and anti-fungal agent (Ikram et al . 2014). Glucose oxidase has a molecular weight of 160,000 a.m.u. (Tsugeet al .1975) and consists of two identical polypeptide chain subunits having nearly equal molecular weights linked by disulphide bonds (O'Malley and Weaver 1972) and it is highly specific for β-D-glucose (Bentley 1963). Each subunit of the glucose oxidase contains one mole of Fe and one mole of FAD (Flavin adenine dinucleotides) and it contains 74% protein, 16% natural sugar and 2% amino sugars (Tsugeet al. 1975). The Glucose oxidase enzyme in its purest form is pale-yellow powder. The molecular weight of GOX ranges from approximately 130 kDa to 175 KDa (Kalisz et al. 1997). Gluconic acid, the oxidation product of glucose, is a mild neithercaustic nor corrosive, non-toxic and readily biodegradable organic acid of great interest for many applications. As a multifunctional carbonic acid belonging to the bulk chemicals and due to its physiological and chemical characteristics, gluconic acid itself, its salts (e.g. alkali metal salts, in especially sodium gluconate) and the gluconolactone form have found extensively versatile uses in the chemical, pharmaceutical, food, construction and other industries (Anastassiadis and Morgunov 2007 ). This enzyme is present in all aerobic organisms and normally functions in conjunction with catalase (Coxon and Schaffer 1971). This enzyme is also used as an antioxidant (Berg et al. 1992). It is mainly available from microbial sources and is normally produced by aerobic fermentation of Aspergillus nigerand Penicillium species (Fiedurak1996; Lu et al. 1996; Plush et al .1996; Rando et al. 1997). It has high specificity for D-glucose (Kuly and Cenas 1983). This enzymeis also widely used to produce gluconicacidthatGOXtogether with Horse Reddish peroxidase has a range of applications in the food industry for glucose determination. GOX is being used in the textile industry producing hydrogen peroxide for bleaching process. This enzyme is also used to determine capillary glucose in screening of gestational diabetes (Mesiggi et al. 1988). This enzyme is utilized to extend the shelf life of fish(Field et al.1986) andproduction of calcium gluconate, gluconic acid and its derivatives (Khurshid2009). Solid state fermentation [SSF] has been recently considered as the most cheapest and more environmentally friendly relative to submergedliquid fermentation [SLF] in the production of value added industrial based products such as enzymes, bio fuels.Advantages of Solid State Fermentation over Submerged Fermentation isHigher volumetric productivity, usually simpler with lower energy requirements, Might be easier to meet aeration requirements, Resembles the natural habitat of some fungi and bacteria and Easier downstream processing (Mienda et al. 2011). Molasses is a dark brown, almost black, moist granular sugar. Its distinctive molasses taste is due to its high content of minerals. Nutritively, it has high iron content (Draycott and Philip 2008). Aspergillus niger is a fungus, one of the most common species of the genus Aspergillus.The genus Aspergillus isimportant economically, ecologically and medically (Nizamuddinet al.2008). Glucose oxidase enzymewas producedthrough the microbial fermentation. For that purpose solid state fermentation wasdevelopedwithA.niger. Solid state fermentation was applied to utilize agricultural residue such as Molasses as substrate. The current research work was focused on production ofextracellular Glucose Oxidase (GOX) fromAspergillusniger using industrial waste such as molasses as substrate by Solid state ( static ) fermentation. Availability: Items available for loan: UVAS Library [Call number: 2219-T] (1). Place hold Add to cart (remove)
	782.	No cover image available Prevelance Of Brucellosis In Aborted Women Visiting Tertiary Care Hospitals Of Lahore City by Saba Yasmin (2009-VA-211) \| Prof. Dr. Aftab Ahmad Anjum \| Dr. Tayyaba Ijaz (Co Supervisor) \| Prof. Dr. Khushi Muhammad \| Dr. Muhammad Tayyab. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Pakistan is an agriculture based country whose rural population depends upon livestock for livelihood. Contribution of livestock to agriculture sector is 55.9 percent while 11.8 percent to the national GDP during 2013-14 (GOP 2013-2014). A number of infectious diseases hamper the growth of livestock sector. Some of the livestock diseases are zoonotic in nature and threat to human health. Brucellosis is considered among major zoonotic diseases throughout the world. The Mediterranean Basin, south and Central America, Eastern Europe, Asia, Africa, the Caribbean and the Middle East are considered as high-risk countries (Memish 2001). Brucellosis in human beings is a major concern of community health. It causes acute and chronic illness, physical incapacity and loss of health. Bacterial species involved include Brucella abortus, Brucella melitensis or Brucella suis. Brucellosis is acquired by human beings from infected animals by close contact with vaginal secretions, urine, feces, blood, aborted fetus, or consumption of unpasteurized milk or other raw milk products. Shepherds, milkmen, butchers, knackers, veterinary assistants and abattoir workers are at high risk (Agasthya et al. 2007). Prevalence of brucellosis recorded by Mukhtar and Kokab (2008) in abattoir workers of Lahore Pakistan was 21.7 percent. Higher prevalence of brucellosis was observed in females (37.06%) than males (24.2%) in patients admitted at Peshawar, Pakistan (Shahid et al. 2014). Symptoms of disease vary among human patients, ranging from non–specific, flu-like symptoms (acute form) to undulant fever (chronic form). Some of the serious complications of skeletal system, cardiovascular and central nervous systems may develop. Other important signs observed include arthritis, orchitis, epididymitis, abortion, retained placenta and stillbirth (Baba et al. 2001; Grilló et al. 2006). In animals, brucellosis in most of the cases results in abortion, birth of weak calves, death of young stock, infertility in males and reduced milk yield in females (Maadi et al. 2011; Abubakar et al. 2012). There is actual need for teamwork between public health officials and veterinary officers to reduce communication of brucellosis between animals and human in endemic areas (Jelastopulu et al. 2008; Makis et al. 2008). Clinical picture of brucellosis is nonspecific and may vary from patient to patient. Therefore, laboratory diagnosis by isolation and culture or recognition of specific anti–Brucella antibodies is essential for confirmation of brucellosis (Al-Attas et al. 2000). Diagnosis of brucellosis by culture and phenotypic description is time-consuming. Furthermore, risk of infection to worker is always there. Serological tests are commonly preferred for brucellosis in cattle and small ruminants, especially at farm level screening. Chance of cross-reactions with other gram negative bacteria is a major problem. Rose Bengal Plate Agglutination Test (RBPT) and Slow Agglutination Test (SAT) are extensively used for detection of anti-Brucella antibodies (Halling et al. 2005). Enzyme Linked Immunosorbent Assays (ELISA) have been developed to resolve suspected samples by RBPT. ELISA is more sensitive, so it can detect Brucella carriers which are negative by RBT, SAT and CFT (Aert et al. 1984). Molecular techniques are more reliable and specific than serological tests. Final confirmation of brucellosis is carried out using polymerase chain reaction (PCR), a molecular technique. Real-time PCR offers enhanced sensitivity, specificity and rapidity of performance when compared to conventional PCR (Gwida et al. 2012). Availability: Items available for loan: UVAS Library [Call number: 2225-T] (1). Place hold Add to cart (remove)
	783.	No cover image available Polymorphisms Of Bovine Tumor Necrosis Factor Alpha Gene And Its Association With Mastitis In Sahiwal Cows by Huma Sattar (2013-VA-03) \| Dr. Sehrish Firyal \| Dr. Ali Raza Awan \| Dr. Muhammad Tayyab. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Mastitis is one of the shocking maladies of milch animals causing high production losses to livestock industry of Pakistan (Kenyanjui et al. 2011). It is an inflammatory condition of udder; represent a major problem in dairy cow management. It is one of the most common and frequent disease of dairy industry. Producers suffer a huge loss due to veterinary treatment costs and necessary culling of the infected animals. It negatively affects the milk production, quality of milk, and farm economics (Fourichon et al. 2005). Increasing the disease resistance among dairy cattle is therefore desirable because without controlling mastitis, the national goals of developing dairy farming on commercial and scientific lines and production of wholesome milk which conforms to the standards of WTO Accord would remain elusive. Mastitis is inflammation of udder that caused by physiological and metabolical changes (Schalm and Noorlander 1957). There are two main types of mastitis; clinical mastitis (characterized by classical symptoms i.e., swelling of udder, redness, clumps and clots in milk etc) and sub-clinical mastitis (not show any symptoms, Milk appear normal, udder appear normal) (Schrick et al. 2001). Mastitis is ranked as a top disease of dairy herds (Rinaldi et al. 2010). This mammary gland infection caused by pathogenic micro organisms such as Staphylococcus aureus, Streptococcus uberis, and Esherichia coli in the mammary gland (Heringstad et al. 2000). India, China and United States are the larger producer of milk and Pakistan is on forth number in milk yield. Pakistan almost produces 36.5 million tons of milk yeild per year (Cady et al. 1983).The Sahiwal breed is well known among for its superior dairy qualities (Barker et al. 1998). Both cross and pure breed Sahiwal cows have high milk production rate (Khan et al. 2013). It is very difficult to comprehend this disease because numerous environmental and genetic factors are involved in the origin and development of mastitis (Bradley 2002; Carvajal et al. 2013). Susceptibility and resistance to mastitis is a complex trait influenced by genetic variation of animals. Among these variations, the polymorphisms in immunity genes are principal key factors in defensive mechanism of mammary gland (Ibeagha-Awemu et al. 2008). The mammary gland tissue is protected by immune system by two defense system; innate and acquired immunity. Innate immunity response by the host is a quick response of bacterial defense system (Mesquita et al. 2012). Innate system is a rapid and effective mechanism that activated on recognition of antigen (Akira et al. 2006). Innate immune system is activated when specific pattern recognition receptors (PRR) that are present on the surfaces which are attach to the specific pathogen (Shuster et al. 1996). PRR are presnt on leucocytes in milk and on the epithelial cells lining of udder. It is reported that T- lymphocyte subset i.e., CD4+, CD8+ and ɤδT are present in infected bovine mammary glands. (Goldammer et al. 2004; Strandberg et al. 2005). Innate defense (nonspecific) of the mammary gland is stimulated by the physical barrier such as teat end, natural killer (NK) cells, neutrophils, macrophages and certain other soluble factors. The teat cannals are considering the main line of defense. Microorganisms enter from teat canal in milk. The main roles of teat sphincter muscles are to remain orifice close so that bacteria cannot enter. This teat canal also lined with keratin, whose estrified and non estified fatty acid function as bacteriostatics that provide protection and play role to eliminate bacteria causing mastitis (Oviedo-Boyso et al. 2007). If a pathogen is not eliminated by the physical barrier, the acquired immune system is triggered. In comparison, this system is much faster than other immune response. The memory response is significantly stronger, long durable and more efficient to kill the pathogen. The acquired immune system (memory response) have ability to differentiate self or nonself cells and produce antibodies only against antigens through membrane bound protein called major histocompatibility complex (MHC) molecules. Specific immune system activate only when antigens bind with an MHC that is present on the surface of certain cells, this process is referred as antigen presentation. Recognition of pathogenic factors for elimination is mediated by macrophages, several lymphoid, and immunoglobulins (Ig) or antibodies (Sordillo and Streicher 2002). The most acute responding macrophages and T-cell cytokines are TNF-α, LTF, IL1, IL6, IL8, and IFN-ɤ present in intramammary infection in cows. These genes play important role in improvement of immunity to mastitis (Burton and Erskine 2003). Tumor necrosis factor alpha is main pro-inflammatory adipokine that is part of systematic immune defense. The main function of TNF-α gene is responsible for proliferation, differentiation and activity of many immune system cells; B lymphocytes, NK (natural killer). It also induces the production and release of many other cytokines (Wojdak Maksymiec et al. 2013) and also enhances the chemotactic and phagocytic effects of immune response. TNF-α gene contains four exons and three introns that are present on chromosome BTA23q22 (Bannerman 2009; Moyes et al. 2009). TNF-α is a member of a group of cytokines that stimulate the specific immune system. TNF consist of 212 amino acid arranged in stable homotrimers (Kriegler et al. 1988; Tang et al. 1996). The 17-kilodalton (kDa) TNF protomers are composed of two β-pleated sheets and β-strands, joined together antiparallel (Tang et al. 1996). TNF-α is a component of natural protection systems of humans and animals. Milk gives nourishment and disease resistance to the new born. Various cellular and soluble immune components are important for protecting the mammary gland from infectious diseases like mastitis. Mastitis affects one third of all dairy cows and cost the dairy industry about 2 million dollars annually (National Mastitis Council (1996). Dairy cattle are especially susceptible to mastitis due to diminished mammary gland defense mechanisms (Sordillo and Streicher 2002). TNF-α is not only produced by activation of macrophages, but also other cell types such as CD4+ lymphocytes, NK cells, neutrophils, mast cells, eosinophils, and neurons. Large amounts of TNF are released in response to lipopolysaccharide, other bacterial products, and Interleukin-1 (IL-1).TNF-α stimulates the proliferation, differentiation and activity of many immune system cells; B lymphocytes, NK (natural killer). TNF-α induces the release of many other cytokines (Wojdak-Maksymiec and Mikolajczyk 2012). TNF-α also enhance the chemotactic and phagocytic effects of immune response. . The present study is designed to determine the genetic polymorphism in exon 4 of TNF-α gene of mastitic cows and its association resistance and susceptibility towards mastitis. Availability: Items available for loan: UVAS Library [Call number: 2224-T] (1). Place hold Add to cart (remove)
	784.	No cover image available Study Of Molecular Diagnosis, Associated Risk Factors And Treatment Of Anaplasmosis In Bovines by Muhammah Hassan Haider (2008-VA-252) \| Dr. Jawaria Ali Khan \| Dr. Muhammad Avais \| Dr. Ali Ahmad Sheikh. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: According to the economic survey of Pakistan 2013-14, livestock sector contributed about 55.9 and 11.8% to the agriculture and national GDP, respectively.Total cattle population in the year 2013-14 is 39.7 million. Total milk and meat production contributed by cattle is 18,027000 tons and 18,87000 tons respectively (Anonymous 2013-14) . In Pakistan, the chiefhindrance in performance and health of animals are parasitic diseases including tick born. Ticks have been easily grown and reproduce in the optimal climate of tropical weather in Pakistan. In Pakistan, there are huge number of species and genera of tick fauna (Durrani and Shakoori, 2009). Tick-borne diseases include babesiosis, theileriosis, anaplasmosis, lymedisease . Among these tick-borne diseases anaplasmosis is one of the vital diseases which is responsible for the substantial economic losses in term of high morbidity, mortality and production losses that are decreased in milk, meat and other important livestock productions. Throughout the world, the “tick-borne diseases” are extensivelyspread in sub-tropic and tropicareasand Pakistan also includes in these areas(Khan et al. 2004). Moreover, anaplsamosis is non-contagious disease but also known to be infectious, transmission of which occur through mechanical means that includes the flies or tick bites. As well as different equipment that are using during tattooing or castration, in dehorning and needles also causes transmission (Aubry & Geale. 2011). Anaplasma marginale (A. marginale) is the major cause of Bovine anaplasmosis and this speciesbelongs to the genus Anaplasma (“Rickettsiales, Anaplasmataceae”). The most important 20 ticks species which cause transmission are Argaspersicus, Boophiludecoloratus, B. microplus, B. annulatus, Dermacentoroccidentalis, D. andersoni, D. variabilis, D.albipictus, Hyalommaexcavatum, Ixodesricinus, Ornithodoroslahorensis, Rhipicephalussimus, R. saniguineus, and R. bursa(Marchette & Stiller. 1982), on the other hand, Boophilusmicroplus found as a major contributor in cause of anaplasmosis (Tick Fever Research Centre, 1996). The family anaplasmatacease was classified in 1957 of the order Rickettsiale. In the genera Anaplasma, Aegyptianella, Haemobartonella and Eperythrozoon, this family was rationalized (Ristic&Kreier. 1984), and projected a combination based on analysis of genes sequences for protein on surface and ribosomal RNA (16S)(Dumler et al. 2001; Walker & Dumler. 1996). Anaplasma is a rickettsial, obligate intracellular bacteria found in red blood cells. Disease is characterized by fever, anemia and jaundice. Infection is transmitted by ticks or mechanically by biting insects or contaminated hypodermic needles or surgical instruments (Tylor et al. 2007).The most significant parasite is Anaplasma speciesthat is transmitted by at least twenty different species of ticks. But among those all mostly Bmicroplus causes Anaplasmosis (Rajput et al.2005). A. marginale is etiological agent of bovine anaplasmosis (Bram, 1957; Dumler et al., 2001; Kocan et al., 2000). A. marginale persistently infect both cattle and ticks and help as infection reservoirs(Kocan et al. 2003). Bovine erythrocyte membrane bound parasitophorous vacuoles is the site for replication of this obligate intracellular organisms. Dogs, humans, wild and domesticated ruminants are the species effected by A. marginale. This anaplasma genus is an obligate intracellular parasite of vertebrate hosts. In cattle, theA. marginal, A. phagocytophilum, A. central, and A. bovisare major pathogenic species producing diseases (Inokuma et al. 2007). Researchers suggestedthat in cattle, some unidentified Ehrlichia or Anaplasma species are present (Awadia et al. 2006). For this pathogen, which cause the persistent infection, the reservoirs are generally present in different host like tick or mammalian (Kocan et al. 2004). The wide range of different ruminant can be affected by Anaplasmabecause the species of anaplasma are not considered as strictly specific for any particular host specific(Kuttler. 1984). The A. marginalecan only be developed inside the RBCs of bovine (Richey et al. 1981). After invading the erythrocyte the tick multiplies and form almost eight initial bodies, they then get enlarge in the outer membrane and give it an appearance of a large dot. The organism gets mature in the outer membrane of RBC and force the infected RBC to get rupture due to infection. By rupturing the outer membrane where it previously multiplied come into the blood stream to infect the other RBCs. On the progression of progresses, more number of erythrocytes is infected by this organism and afterward destruction of erythrocytes occur (Stewart et al. 1981). Upon the clinical signs and symptoms are appear when the 15 percent of the RBCsare affected by the parasite(Radostits et al. 2006). The symptoms of the disease are pyrexia, anemia, icterus, hematuria, anorexia, muscular tremors, dyspnea, depression, lethargy, constipation and yellow colour of mucous membrane (Bram et al. 1983), low milk production, miscarriage and sometime mortality (Alderink and Dietrich. 1981). The mature RBCs are the site for multiplication after the invading by A.marginale. In the acute case of Anaplasmosis the higher number of RBCs are affected by the parasite for example more the 109 red blood cells per ml and after that the disease is categorized by death, abortion, loss of weight and anemia, and the survival cattle that are infected act as reservoirs for transmission of the disease in the herd level(De Echaide et al. 1998).The haematological profile can be used as useful diagnostic tool in anaplasma infection(Van Wyk et al. 2013).There is significant decrease in packed cell volume (PCV), Hemoglobin (Hb) and erythrocytes count.Serum biochemical analysis showed increased total protein,bilirubin and alanine aminotransferase enzyme (Sharma et al. 2013). A diagnosis ofcattle anaplasmosis may be made tentatively based on geographical location, seasonal variation and presenting clinical signs or necropsy finding in infected animals (Kocan et al. 2010). A.marginale,can affect throughout the life of cattle but disease severity is dependent on the age of the cattle. The clinical disease is less occurs in the calves and disease is very rare under the age of 6 month. The mild type of the disease can occur in the animal, which are between the ages of six month to one year. The acute type of the disease occurs in the animals between the ages ofone to twoyears but this disease is never fatal for the animal between these age groups.Whereas if the acute type of the disease occur in the adult animal that are more than two year aged can face the serious consequences and this disease can cause the death of the cattle with higher percentage (29 to 49%) of mortality (Kocan et al. 2003; Richey. 1991). Beside the animal age at the infection time, onceA. marginale infect animals, the animals become carrier for the infection throughout of animal life, with or without the clinical signs of the infection (Richey et al. 1991). The animal with the strong immune system are recovered from the acute type of anaplasmosis (Palmer et al. 1989). The regular cycle of ten to fourteen days are present in the carrier animals and in this cycle there are more or less number of RBCs are infected with the pathogen(Kocan et al. 2003;Kieser et al. 1990; Viseshakul et al. 2000). For the proper diagnosis of the disease and quality control in livestock, the most important aspect is the preciseor correct detection of pathogen that is spread by the tick.In 1990, with the beginning of the diagnosis with the techniques on the molecular bases the researcher produced more accurate and sensitive techniquesfor pathogenic species determination and these techniques are still used till to date (Ahantarig et al. 2008). The Giemsa staining method is used for the diagnosis of anaplasmosis in bovinesthat can be achievedby finding ofA.marginalein smear of blood from animals that are affected clinically. For the carrier animals or pre symptomatic animals thistechnique is not reliable. In these types of conditions, the serological tests are used for general diagnosis of infection by detection of antibodies. This is confirmed by molecular detection methods. A.marginaleappears as “dark staining blue purple bodies” measuring about 0.3 to 1 µm in length. A. centrale inclusion bodies are well differentiated by their location. Serological diagnosis can be done for the identification of infected cattle, DNA based test can be used for the molecular diagnosis(Stuen et al. 2011). The conventional parasitological technique like Giemsa staining always remained gold standard for diagnosis of Bovine anaplasmosis. Light microscopy of thin blood smears stained with giemsa stain may facilitate demonstration of A. marginale organisms in the erythrocytes (Kocan et al. 2004) .As giemsa staining method is not applicable for the detection of subclinical infection. Therefore PCR can also be used as a diagnostic tool for the detection of A.marginale in this technique primer pairs are used which resulted in the amplification of only their target DNA i.e. A.marginale(Munderloh et al. 2004). In the United states, for the treatment of anaplasmosis, the specific approved compound is the tetracyclines that include chlortetracycline or oxytetracycline(Kuttler. 1980). Oxytetracycline, Chlortetracycline and Tetracycline can be used to treat anaplasma infection in cattle .Among these Oxytetracycline is the most used drug at the dose rate of 10mg/kg body weight. While single dose of imidocarb dipropionte can be used at the dose rate 3mg/kg body weight (De Waal 2000).Imidocarb dipropionate with the dose of 3 milligram/kilogram body weight repidly treat A. marginale(anaplsmosis), on the other hand, same drug with double dose (6 milligram/kilogram body weight) and each dose has gape of two weeks,fail to cure A. marginalecarrier heifers(McHardy & Simpson. 1974). The animals recovered completely with imidocarb dipropionate (Akhter et al. 2010).The E elephantina and Aloemarlothiileaf extracts demonstrated good activity against rickettsia. These 2 plants along with Usanguineaand Rtridentata in certain concoctions are believed to be effective against anaplasmosis (Naidoo 2004). Availability: Items available for loan: UVAS Library [Call number: 2228-T] (1). Place hold Add to cart (remove)
	785.	Muhammad (PBUH) For The Global Village by Dr. Muhammad al-Haashimi al-Haamidi \| Nasiruddin Al-Khattab. Edition: 1st ed.Material type: Book Publisher: Pakistan : Dar-us-Salam Publications; 2008Availability: Items available for loan: UVAS Library [Call number: 297.246 Al-Hashimi 30673 1st 2008 Islam] (1). Place hold Add to cart (remove)
	786.	No cover image available Anticoccidial Activity Of Aloe Vera (Qawar Gandal) In Broiler by Hafiz Atif Munir (2005-VA-102) \| Dr. Muhammad Lateef \| Dr. Haroon Akber \| Dr. Jawad Nazir. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: There are various species of Eimeria that cause coccidiosis. This disease is considered to be one of the most significant and prevalent diseases across the world. This disease reduces the production and causes high morbidity and death rates, on the other hand for controlling this eimeriosis, one has to adopt preventive therapy in the form of anticoccidial drugs in combination with occurrence of natural immunity in birds. Coccidia cause infection in intestine and multiply in gut and belong to protozoan parasites. These protozoan coccidian cause chicken Eimeriosis which is considered one of the most significant diseases, that cause severe economic losses across the world. For poultry control houses, coccidiosis is considered one of the most common (Hamidinejat et al., 2010). As oocysts of coccidia are very unique so they spread from one poultry farm to another poultry farm and for dissemination of this protozoan, parasitic disease management plays a pivotal role. Now it’s very hard to keep chickens safe from these parasitic protozoa particularly in the control poultry houses where high production is required. In poultry house litter, oocycts multiply readily. But there are some factors which affect the number of these protozoa like bacteria or some environmental factors like liberation of Ammonia gases and under these factors, Eimeria start to diminish after three weeks (Williams, 1995). Caecal and intestinal forms are the two important forms of avian coccidiosis. Diarrhoea and excessive caecal haemorrhages are the main symptoms of caecal coccidiosis and its causative agent is Eimeria tenella (Gardinar 1955). In prevention, surveillance and control of coccidiosis specific diagnosis plays a pivotal role. Eimeria oocysts from the faeces of infected chickens have been detected or enumerated by conventional methods and pathological lesions resulted by Eimeria infection and oocyst structure can also be determined by employing traditional methods (Long and Joyner 1984). But because of the involvement of multiple species of Eimeria in coccidial infection these approaches cannot be realistic as there can be overlapping among various sizes of oocysts (Long and Joyner 1984). There are six species of Eimeria which cause great economic loss in chickens and also these species are highly host specific. High mortality rate and morbidity rate due to bloody enteritis and production losses are reasons of great economic. Despite management now a days anticoccidial drugs have been used in chicken feed to minimize the effect of this disease. E. tenella, E. necatrix, E acervulina, E. maxima, E. brunetti , E. mitis and E. praecox are the seven species of Eimeria which are considered as main causative agents of coccidiosis in chicken (Arabkhazaeli et al. 2011). However, control of coccidiosis can be achieved by producing species-specific natural immunity along with anticoccidial drugs (Shirley et al. 2004), but it’s also evident from the fact that drug resistance has been increasing due to excessive use of anticoccidial drugs (Williams 1998). Pathological lesions, host and protozoan characteristics are very important for diagnosis of coccidiosis. But one cannot identify the Eimeria species accurately as analysis of these characteristics requires high expertise. Good management plays key role in controlling coccidiosis which includes proper ventilation, dry litter, drinkers and feeders in good clean condition and appropriate density of stock (Jordan 1995, Gross 1985). Size and morphology of parasite at various stages of life cycle plays an important role in identification of Eimeria and site of enteric pathological lesions. In complex infection it’s very hard to identify the species showing same features (Long and Reid 1982). The increasing resistance of avian coccidiosis to anti-coccidial drugs currently used by poultry industry together with the requirement for drug and the production systems which should be antibiotic free, it’s now very necessary to go for the new and advanced methods to prevent from this disease. Therefore, scientists started to work on medicinal use of herbal products to control this eimeriosis. In past for treatment of various human and poultry ailments the natural herbal products have been effectively used several times. Because of the anticoccidial nature and antibacterial effect, Aloe vera could be served as a valuable alternative for coccidiostats as a medicinal plant. Previously aloe gel has been used for multipurpose like as an antibiotic, for healing of wounds, for anti-inflammatory effects, for anti Eimerial response and as an anti-ulcer agent. It was also reported that in broilers it increases immunity by enhancing the number of microvilli (Jinag et al., 2005). In Asia Aloe gel is considered one of the most common and easily available country medicines to get effective deliberate results. Therefore, the current study planned to cope coccidial diseases in broilers by serving Aloe vera as an effective weapon. The present study therefore planned to discover the anti-coccidial effects of Aloe vera in broilers by using its powdered form, aqueous and methanol extracts. Availability: Items available for loan: UVAS Library [Call number: 2231-T] (1). Place hold Add to cart (remove)
	787.	No cover image available Comparative Efficacy Of Different Nsaids Against Bovine Ephemeral Fever by Ghazanfar Ali Chishti (2007-VA-51) \| Prof. Dr. Aneela Zameer Durani \| Prof. Dr. Muhammad Sarwar Khan \| Dr. Shehla Gul Bukhari. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Dairy sector has significant role in Pakistan economy with a share of 46.8% in agriculture and 10.8% to Pakistan GDP. Pakistan ranks 4th among largest milk producing countries in the world (Anonymous 2012-13).In last decade, dairy sector in Pakistan has seen tremendous growth and corporate investment. More than 40000 exotic cross bred high producing cattles have been imported. Earlier this sector used to rely primarily on local low producing cattles and small scale subsistence farming, now different commercial dairy farms having high producers exotic cattles are also becoming major contributor in this sector. Trend is changing, different issues concerned with sector are rising. Sensitivity level of commercial dairy farmer is far high as compared to small scale traditional farmers, they can not accept or tolerate any factor affecting economy of their dairy business due to heavy investment. One such issue rose to headlines in July-August 2014, Pakistan dairy industry was struck badly with an outbreak of viral disease called Bovine Ephemeral Fever (BEF). It caused colossal damages to dairy industry in terms of decreased milk production, mortalities and treatment costs. This was not an out rightly a new disease in Pakistan its episodes have been seen in past in local cattles and buffalo (Asi et al. 1999) and locally it was termed as “will” (Prof Khushe personal communication). But it never got such a hype and attention in past as local animals were already low producers and their production was never affected at substantial level. Local animals were generally weak having low Body Condition Score, a character which does not support the intensity of this disease, Ectoparasite resistance is another factor considered to be a source of protection for local animals. Introduction 2 During initial phase of outbreak, it was considered as a common local epidemic Hemorrhagic Septicemia (HS) and Foot and Mouth Disease (FMD) and few signs also confused it with Milk Fever. But once outbreak progressed, it became clearer that it in neither HS and nor FMD it is something different. After going through literature it was clinically suspected as BEF and later was confirmed through Polymerase Chain Reaction (PCR) by University Diagnostic Laboratory (UDL), UVAS, Lahore. BEF is a viral disease caused by genus Ephemerovirus and family Rhabdoviridae. (Uren et al. 1992).It is a noncontagious, vector borne disease of water buffaloes and cattles proposed to be communicated by midges (Culicoides biting) and mosquitoes.(Walker et al. 2012). Ephemeral fever, stiff sickness, three-day-sickness, bovine influenza and bovine epizootic fever have been used to name this viral disease in the different nations at different eras (Chiu 1986; Chiu and Lu 1986; Lin and Inoue 1969; St.George1981). BEF happens seasonally in temperate, tropical and subtropical regions of Asia, Africa, Middle-East and Australia and this is a disabling disease with significant economic effect due to reduction of milk production, loss of health status in beef herds, abortion and infertility. Characteristic clinical signs comprise of a sudden onset of fever as high as 41 °C, an abrupt and austere drop in milk production, lethargy, inappetence, salivation, depression, nasal discharge, stiffness, dyspnea and ruminal stasis (Walker et al. 2012). Primarily, pathogenesis of BEF is based on vascular inflammation (Young and Spradbrow, 1980) so this provides the rationale for its treatment through anti-inflammatory drugs. Different NSAIDs have been used in previous studies phenylbutazone, flunixin meglumine and ketoprofen (Uren and Murphy, 1985; St George et al. 1984) but no study has been found using most common field NSAID of Pakistan, meloxicam. So, here a comparative study was carried out between three NSAIDs meloxicam, ketoprofen and phenylbutazone on naturally infected BEF animal. Availability: Items available for loan: UVAS Library [Call number: 2243-T] (1). Place hold Add to cart (remove)
	788.	No cover image available DNA Based Characterization Of Protease Gene From Geobacillussp.Sbs-4s by Anam Shabbir (2012-VA-608) \| Dr. Muhammad Tayyab \| Ms. Huma Mujahid \| Prof. Dr. Tahir Yaqub. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Proteases are hydrolytic enzymes responsible for the hydrolysis of proteins(Qadar et al.2004).These enzymes contribute major role in textile and leather industry,accounting 60% of the world wide enzyme market(Nascimento et al.2004).These enzymes are also being used in food ,pharmaceutical ,detergent, brewage sweet industry and as digestive additives in human and animal feed (Wilson, 2012). Proteases are produced by microbes,animal and plants but microbial proteases are preferred due to ease in production and cheaper cost (Ningthoujam et al.2010).Microbes produce a variety of proteases according to their requirement that are specific in their function (Neurath 1999).Microbes might be involved in the production of intra or extracellular proteases.Extracellular proteases help the organism to absorb and utilize hydrolytic products from proteinious substrates in order to get energy by catabolism or to synthesize the biomolecules through anabolism reactions(Ningthoujamet al.2010). Proteases can be classified in different ways.On the basis of cutting preferences these can be divided in to two groups:endopeptidases and exopeptidases (Barret and Mcdonald 1985).Exopeptidases are involved in hydrolysis of the peptide bond near N or C terminal whereas endopeptidases are responsible for the hydrolysis of peptide bond, with the chain, distant from the peptide ends(Motyan et al .2013).On the basis of catalytic residues in active site the proteases can be divided into six groups including glutamate,serine, therionine cysteine,aspartate and metalloproteases(Li et al.2013). Microorganisms occupy all possible environments including habitats that provides appropriate conditions for growth(Sharma et al.2009).Thermophiles have ability to grow at highertemperature whereas other microbes fail to survive.There has been increasing interest in thermophilic bacteria because of their thermostable enzyme(Obeidat et al.2012).Hyperthermophiles can survive in extremely hot environment. Hyperthermophiles occupy the most basal positions of the phylogenetic tree of life(Bouzas et al. 2006). About 70 species of hyperthermophilic bacteria and archea has been isolated from different terrestrial, marine and thermal areas in the world.Hyperthermophiles are very divergent in their phylogeny and physiological properties.Proteolytic enzymes from hyperthermophiles are catalytically active at high temperature and they can alsoretain their catalytic activity in the presence of detergent and other denaturing substances (Stetter et al.1993). Geobacillusis widely distributed thermophiles isolated from geothermal areas (Chalopagorn et al.2014).On the basis of16SrRNA gene sequences, Geobacillus belongs to Bacillus genetic group 5. It is phenotypically and phylogeneticallyconsistent group of thermophilicbacilli (Rahman et al. 2007).Bacillus and Geobacillus species are the dominant workhorses in industrial biotechnology. These bacteria produce a variety of extracellular enzymes, such as amylases, xylanases, proteases, phytases, carbonic anhydrases, catalases, pectinases. Bacillus and Geobacillus species hasability to grow at acidic, alkaline, neutral pH and at elevated temperature has positioned them among the most important industrial enzyme producers(Satyanarayana et al. 2012). Geobacillus are gram-positive, rod-shaped, aerobic,endospore-forming obligate thermophiles.The growth temperature for various Geobacillus species ranges from 37 to 75 °C and pH range of 6.0 to 8.5.The members of Geobacillusare homologus to each other and share homology 99% among them(Tayyab et al.2011). The genus Geobacillusthermophilicstrains, produce a variety of thermostable hydrolytic extracellular enzymes, such as proteases, amylases, and lipases used in various industrial applications (Wiegand et al. 2013) GeobacillusSBS-4S was isolated from a hot spring located in Gilgit, Northern areas of Pakistan.Geobacillus SBS-4S strain is Gram positive, rod-shaped bacteria and occurs in chains. That could grow at a wide range of temperature (45 to 75˚C) and pH ranging 5.5 to 9.5.Geobacillus SBS-4S produced several extracellular enzymes including amylase, protease and lipase.The comparison of the strain SBS-4S with the already reported species of genus Geobacillus showed that SBS-4S is resistant to antibiotics such as streptomycine, spectinomycin and rifampicin(Tayyab et al.2011). Availability: Items available for loan: UVAS Library [Call number: 2242-T] (1). Place hold Add to cart (remove)
	789.	No cover image available DNA Based Characterization of Xylanase Gene From Hyperthermophilic Archeon by Saima Zulfiqar (2012-VA-539) \| Dr. Muhammad Tayyab \| Dr. Faiza Masood \| Dr.Sehrish Firyal. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Blank CD Availability: Items available for loan: UVAS Library [Call number: 2233-T] (1). Place hold Add to cart (remove)
	790.	No cover image available Incidence And Hematological Study Of Trichomoniasis In Domestic And Wild Pigeons In And Around Lahore by Akhtar Abbas (2008-VA-91) \| Dr. Muhammad Hassan Saleem \| Dr. Jawaria Ali Khan \| Prof. Dr. Kamran Ashraf. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Poultry industry is the most effective and economical source of animal protein. Because of increasing future demands, poultry industry is unable to narrow down the animal protein supply and demand gap. Poultry producers are looking forward for using the alternate source of chicken meat, which in the future will come from pigeon and quail meat. It will be very help full for increasing gross domestic production (GDP) through livestock sector (Basit et al. 2006). Pigeons have been domesticated to live close with human beings. Pigeons originate from the rock dove in Europe, have been partially domesticated and carried to all parts of the world. Pigeons have been divided into three groups. 1) Poultry pigeons 2) Carrier and racing pigeons 3) Fancy and feral pigeon Pigeons are easily bred to produce a variety of plumage or to provide squabs for the table (Basit et al. 2006). It is very well known that internal parasites cause great loss to the host, by different ways. These parasites live at the expense of host depriving them from the nutrients essential for their growth. Moreover they cause mechanical harm by producing inflammation and tissue damaged. Protozoa inhabiting the digestive tract of birds are responsible for considerable economic losses. Heavy infestation of the parasites affect the health of birds with loss in the body weight, retarded growth, unthriftiness, damage to the gut epithelium, fertility disturbances, emaciation and death especially in young birds (Urquhart, 1996). Introduction 2 Common name of Trichomonas gallinae is canker, frounce and roup. Predilection site of this parasite is esophagus, crop and proventiculus. It belongs to the family Trichomondidae and class Zoomastigophorasida (Taylor et al. 2007). Body of T. gallinae is elongated, ellipsoidal os pyriform. Its size is 5-19 × 2-9 μm. It has four anterior flagella that arise from blephroplast, having undulating membrane that does not reach the posterior end of body and free posterior flagellum is absent. Its axostyle is narrow and protrudes 2-8 μm from the body and its anterior portion is flattened into a spatulate captulum. Its parabasal body is hook shaped and parabasal filament is present (Taylor et al. 2007). The host of T. gallinae is pigeon, turkey, chicken and raptors (hawks, falcons and eagle). As the method of reproduction is concerned it reproduced by longitudinal binary fission. There is no sexual stages and cyst are present in its life cycle. Lesion present in the turkey and chicken are most commonly in the area of crop, oesophagus, pharynx and no lesion are found in mouth (Taylor et al. 2007). Size of trophozoites of T. gallinae is about 7-11 μm. Its shape is varied from oval to pyriform. It has four flagella and a fifth recurrent one, which did not become free at the posterior pole. Size of nucleus is about 2.5–3 μm, oval in shape and situated closely below the basal bodies of the flagella. Its axostyle consisted of a row of microtubules that is running from the region of the apical basal bodies to the posterior end of the cell (Mehlhorn et al. 2009). Infected pigeons show wild signs of depression, lose weight, stand huddled with ruffled feathers and may fall over when forced to move. There is an accumulation of greenish fluid present in the mouth and crop containing large number of trichomonads in it. Yellow, necrotic lesions are present in the esophagus and crop (Taylor et al. 2007). Introduction 3 Trichomonas gallinae is a causative agent of trichomoniais in birds. It affects mostly to the young birds and causes death in them, especially in pigeons within 10 days. This Protozoa is present in the gastrointestinal tract of birds and causes greater financial losses. Clinical sign of diseased birds are dull, depress and having yellow color diarrhea. Morbidity rate of this disease is high in birds. If infected birds are not treated, it causes high mortality in diseased birds, due to this reason this problem become very important. Trichomonas gallinae presents in upper digestive system and respiratory system. So it affects both digestive system and respiratory system. It is mainly found in pigeons, but turkey, chicken, hawks, mourning doves, golden eagles, falcons and bustards may also be infested with this protozoa (Saleem et al. 2008). Small, whitish to yellowish caseous nodules are found in the esophagus, pharynx and crop. Their size increased and may remain circumscribed and separate, or may become thick, caseous, necrotic mass present in lumen. The circumscribed disk shape lesion are known as yellow buttons. Size of nodule is 1 cm or more and found in liver, lungs and other organs (Taylor et al. 2007). Infection spread to turkey and chicken by drinking contaminated water. The pigeon and other wild birds are also source of infection, which also use the water source. T. gallinae enters in the water through mouth and not from feces of the wild birds. Source of infection is direct contamination because this organism is very sensitive to drying and no cyst are found (Taylor et al. 2007). There are more chances of trichomoniasis in young one than in adult pigeons. During feeding carrier pigeons transmit this disease to their young ones. The pathological lesions associated with trichomoniasis is inflammation, ulceration, and necrosis in nature. These lesion are more predominant in the oral cavity, esophagus, crop and proventiculus (Kennedy et al. 2001). Introduction 4 This disease is present worldwide. A clonal strain of previously described organism has been recently developed as the cause of widespread disease of birds in Europe and causes a grate economic losses (Ganas et al. 2014). In Britain, this infectious disease was first described in 2005. This disease causes significant mortality in birds which results in decreased population of green finches and passenines (Robinson et al. 2010). T. gallinae affects upper digestive system of birds and results in pathological changes in structure of different parts of digestive system. It causes slight inflammation of mucosa to large caseous lesions of esophages. These lesion sometime block the lumen of esophagus. Due to this secondary infection of parasites, bacteria and virus takes place in diseased birds. Different strains of parasites move toward other organs such as liver, air sacs, lung, and brain. They causes necrosis of these organ, which leads to the death of birds (De Carli et al. 2002). Prevalence of T. gallinae infection is different in different age of birds. Prevalence increased with the age of nestling (Krone et al. 2005). A higher prevalence of Trichomoniasis has been recorded in pigeons in Pakistan season wise prevalence has been recorded to be 43%, being non significantly higher in April (56%) than in March (30%). Trichomoniasis positive cases show a significant decrease in hemoglobin concentration, number of monocyte, packed cell volume, body weight than healthy birds (Saleem et al. 2008). T.gallinae is a parasite of different species of birds ranging columbiformes, diurnal raptors and captive gallinaceous birds. It causes stomatitis, esophagitis and ingluvitis (Bunbury et al. 2007). This disease is recently emerged in British passerines. This parasite has caused high mortality in finch and their population is decreased and this disease is also spread to continental Europe (Chi JF 2013). Introduction 5 The sequence of T.gallinarum is different from Tetratrichomonas gallinarum that is another trichomonad of birds, but it is genetically similar to Trichomonas Caninistomae that affect dog and cat and causes oral infection. Pigeons are prey of dog, so there is possibility that T. gallinae may have infected (carnivorous) mammals in the past (Gasper et al. 2007). This disease causes large economic loss of avain livestock and also cause problems for wild species of birds. In UK T. gallinae has caused the death of greenfinches (Lawson et al.2006). Trichomoniasis was first reported in 2005 in Britain. It was discovered in finches. It caused large scale mortality in finches with population decline (Robinson et al. 2010; Lawson et al. 2011). In 2007 this disease is reported in finches in the Canadian Maritime provinces, southern Fennoscandia and northern Germany (Lawson et al. 2011). This disease caused high morbidity and mortality in finch population in Britian. It is estimated that about 1.5 million greenfinches which represent the 35% of national population have been died with this disease (Lawson et al. 2011). In this disease multiple foci of caseous necrosis is seen in oral, esophagus and crop mucosae. There is heavy infiltration of inflammatory cells especially heterophill in these areas. There is multiple foci of necrotic inflammation is seen on liver. Due to excessive infiltration of heterophils in there is thickening of mucosa of easophagus. Necrotic material is also seen in mucosa and submucosa of easophagus. There is necrosis on the tip of villi of intestine and necrotic materials is seen in the mucosa of intestine (Al Sadi et al. 2011). Trichomoniasis occurred more frequently in young than adult pigeons. High prevelance of trichomoniasis have seen in male than female pigeons (Al Sadi et al. 2011). Nestling birds are more susceptible to this disease than other birds. In Tucson, Arizon study was conduct and this study show that T. gallinae was present in oral cavity of 85% nestling coopers hawks compared to Introduction 6 only 1% of breeding age hawks. This disease is more prevalent in young pigeons. T. gallinae is sensitive to environmental pH. Trichomonas gallinae develop well when pH is between 6.5 and 7.5 (optimum 7.2), but cannot survive in more acidic pH. In fledgling and breeding Coopers Hawks pH of their oral cavity is acidic, so they are less susceptible to trichomoniasis and this is very important in differential prevelance among age group of birds (Urban et al. 2014). Trichomonas gallinae changes the blood picture of infected birds. It causes decreased values of Hb, PCV and monocytes in infected pigeons than the healthy pigeons, while TLC, heterophils, lymphocytes and eosinophils are increased in disease pigeons than the healthy pigeons (Seddiek et al. 2014). Availability: Items available for loan: UVAS Library [Call number: 2241-T] (1). Place hold Add to cart (remove)
	791.	No cover image available Effects Of Aflatoxin M1 (Afm1) On Sheep And Efficacy Of Mycotoxin Binders by Muhammad Akhtar (2008-VA-122) \| Dr. Jawaria Ali Khan \| Dr. Muhammad Hassan Saleem \| Dr. Muhammad Ovais Omer. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Livestock production is an important part of national economy and it plays a significant role in providing the high quality food for human beings. Dairy industry of Pakistan contributes up to 46.8% in the agriculture and about 10.8% of the GDP in the form of milk, milk products, meat, hides, skin and bone meal (Ghaffar et al. 2007). Molds are fungi consisting of filaments that are present in the feed of animals. Molds can cause many infections in dairy cattle, especially during period of stress when their immune system is depressed. They cause a special disorder that is termed as Mycosis. Specific mycotoxins are produced by these fungi and when these animals eat such type of feed then they also engulf such dangerous mycotoxins. Mycotoxins are produced by a wide range of various molds and can be classified as secondary metabolites meaning that their function is not essential to the mold’s existence (Whitlow and Hagler 2005). In the European countries, sheep milk is mainly produced in the Spain, and it is about 403000 tons per year. The main purpose of this milk is to produce cheese. Manchego cheese is considered as the best quality cheese in the world. This is the only technique by which we can produce the high quality of cheese (Rubio et al. 2009). These Aflatoxins are the fungal main dangerous constituents that can contaminate the feed of animals very easily. If AFB1 contaminated ration is consumed by animals then metabolism takes place in these toxins and excrete AFM1 in milk which further reduces milk production. More long-lasting aflatoxin poisoning produces very dissimilar signs that may not be clinically superficial and decreased rate of production in young animals. Severe aflatoxicosis causes hepatitis, hemorrhage, and death. Decreased growth rate is the most delicate clinical symbol of chronic aflatoxicosis, and it may be the only readily obvious abnormality. Natural toxins considerably show the greater danger to human and animal health. One large group of natural toxins that are universally Introduction 2 documented as poisons of food and feed are the mycotoxins. The toxins occur naturally in various animal feeds, including corn and cottonseed. To control AFM1 in milk, it is essential to decrease the feed contamination by AFB1 (Prandini et al. 2009). The livestock is playing major role in enhancing agricultural productivity and it has also major contribution to decrease the rate of poverty in the rural areas of Pakistan. Most farmers have domesticated sheep in their home which are their major sources of income (Mahmood et al. 2009). Aflatoxins adulterated rations prompted important reduction in daily feed consumption and the means of body weight, body weight increment and feed transformation rates were radically affected during the exposure stage to aflatoxins. Furthermore, serum ingredients and ruminal measurements showed lessened liver function and digestive turbulences in sheep fed aflatoxin (Jouany and Diaz 2005) Aflatoxins are included in that group of toxins which are considered as highly toxic toxins. Aspergillus parasiticus, Aspergillus flavus and Aspergillus nomius are those types of fungi which can produce very strong type of toxins. Aflatoxin B1 (AFB1) is considered as the most dangerous type of aflatoxin and it is very strong hepato-toxin (damaging the liver as a whole). It can also cause cancer, can produce teratogens, and may also cause mutation in the both animals and in human beings. AFB1 being very toxic, can be activated by the special metabolism of liver and through cytochrome P450. The cancer causing ability of AFBI is ten times more than the AFM1. The conversion of AFB1 to AFM1 in the milk producing animals is in the range of half percent to about six percent. In milk producing animals the level of aflatoxin M1 is greatly altered by the contamination rate of aflatoxin B1 (Bognanno et al. 2006). It is observed that the excretion pattern of aflatoxin M1 in the milk of sheep is lower than the excretion pattern of aflatoxin M1 in the milk of cows. Due to presence of aflatoxin B1 in the feed of animals and hence appearance of aflatoxin M1 in the milk of animals shows that Introduction 3 milk of such animals becomes more toxic and more un-hygienic. The young ones having milk as their main feed ingredient may have much more chances of getting various infections. (Var and Kabak 2009). To check the level of aflatoxin M1 in the milk of sheep, various experimental studies have been performed in the whole world (Battacone et al. 2005). In Pakistan, there are many favorable environmental conditions in which various types of fungi can easily prompted (Iqbal et al. 2011). The contamination level of aflatoxin M1 in the milk of dairy animals and in the dairy products has been found by (Hussain et al. 2008). Aflatoxins can be produced from fungal metabolites. Aflatoxin M1 is produced as the complete metabolism of aflatoxin B1 has taken place. Aflatoxin B1, when converted into aflatoxin M1 is appeared in the milk of that animals and the same aflatoxin M1 can also be appeared in the dairy products which can contaminate the feed of human too. Transformation of aflatoxin B1 into the aflatoxin M1 is around one to two percent. This transformation is highly dependent upon the feed of animals, transformation from one affected animal to other healthy animal, transformation from the milking of affected animal to the milking of healthy animal and from one day to another day also. It is also noted that as the level of aflatoxin B1 in the feed of animal is decreased down then the level of M1 in the milk of animals is also dropped down significantly but it takes about 72 hours for this dropped down (Nilchian and Rahimi 2012). AFM1 had a resistant to thermal inactivation used during food processing procedure such as pasteurization and autoclaving. Storage of various dairy products was not effective in the reduction of this toxin (Ozdemir 2007). Aflatoxin M1 level in the milk of animals can also be found in 12 to 24 hours after the ingestion of aflatoxin B1. After this, its level can be raised within the few days. The estimation of conversion rate of aflatoxin B1 in the contaminated feed of animals into aflatoxin M1 in the milk that animal is elaborated as 1 to 3 percent in a specific range (Ozdemir 2007). Introduction 4 Aflatoxin B 1 being very much dangerous mycotoxin, it is very much important to know about such methods by which the level of aflatoxin B1 in the feed of animals can be controlled. For this purpose we should first come to know the basic source of feed contamination of animals, and after this we should adapt such easy method to determine the level of aflatoxin B1 in the animal’s feed and such methods should be very cost effective. The best accepted and recognized method to determine aflatoxin M1 level in the milk of infected animals is HPLC high-performance liquid chromatography and TLC thin-layer chromatography (Thirumala-Devi et al. 2002). Aflatoxin M1 can be found in the milk of infected animals and can also be found in the products that are prepared from that contaminated milk. This contamination is the main problem arising now a days in the whole world (Fallah et al. 2009). Availability: Items available for loan: UVAS Library [Call number: 2237-T] (1). Place hold Add to cart (remove)
	792.	No cover image available Sequence Analysis Of Mitochondrial Atpase 8/6 Gene Variants In Equine by Kashif Hameed Anjum (2012-VA-905) \| Dr. Asif Nadeem \| Mr.Maryam Javed \| Dr. Muhammad Tayyab. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Human has been using horses for doing different jobs like transportation, hunts, carrying loads, warfare and sports (Zhang et al. 2012). In Pakistan, horses and donkeys are mostly used for transportation whilehorses are also used for racing and playing games like polo.There are two main types of horses:Equuscaballusare domesticated horses and Equusferus are the wild horses. There are more than 300 breeds of horses in the world today (Barbara and Dafydd, 2007). The horse population is estimated as 0.32 million and has been decreasing over the years in Pakistan. Main breeds of horses that are found all over the Pakistan are Kajlan, Kakka, Balochi, Morna, Shien, Anmol, Makra, Pak-thoroughbred,Heerzaiand Waziri (Khan, 2004). Seventy percent of the population earns living from the land. Agriculture contributes nearly 21% to gross domestic product and generates 43% of all jobs. Over 30 million people in rural areas derive their livelihood from livestock production. The number of impoverished communities moving from the country to find work in Pakistan’s towns and cities is rising. Many of these people rely on working equine animals to earn a living. Nuclear and mitochondrial genomes are frequently used in animal genetic research. Nuclear genomeis generally a huge and complicated molecule and is not well studied in many species. However mitochondrial DNA being small sized and having high mutation rate is used frequently for the purpose of genetic research (Stanley et al. 1994). Characteristic of having fast evolution rate as compared to nuclear DNA makes mitochondrial genes a good tool for genetic studies (Avise, 1994). Several studies have investigated the genetic relationship among horse and donkey breeds using mitochondrial sequences as a marker for breed characterization and phylogenetic. Each mitochondrion contains its own circular DNA, replication, transcription and translation machinery and serves as semi-autonomous organelle. Mitochondria perform so many important functions in our body like metabolism(oxidative phosphorylation), apoptosis and aging(Weinberg, 2007). The advent ofpolymerase chain reaction and direct sequencing techniques with the use of mtDNA as a phylogenetic marker has been extended to much greater levels of phylogenetic inclusiveness (Zardoya and Meyer,1996). The special features of mtDNAi-e,lack of introns, maternal inheritance, absence of recombination events and haploidy have made it the most common type of sequence information used to estimate phylogenies among both closely and distantly related texa(Meyer, 1993). Four of the five mitochondrial respiratory chain complexes, namely C1, C3, C4 and C5 (ATP synthase) contain subunits encoded by mitochondrial DNA (Kadenbach, 2012). ATP synthase (Complex5) functions to make ATP that is used by the cell (Von et al. 2009). ATP synthasecomprisesan integral membrane cylindrical, the F0 particle and a peripheral matrix-facing F1 particle, the catalytic ATP synthase domain (Boyer, 1997). All aerobically respiring organisms possess ATP synthase enzymes and are located inthe cell membrane in prokaryotes, the mitochondrial inner membrane in eukaryotes and the chloroplast thylakoid membrane (Ackerman and Tzagoloff, 2005). This enzyme is responsible for the final step of oxidative phosphorylation. The protons move down their concentration gradient from inter membrane space to matrix through F0 particle while F1particleuses the energy provided by influx of these protons and converts ADP molecule into ATP. ATPase 6 and ATPase 8 proteins are components of F0 particle where they play direct role in maintaining the structure and function of ATP synthase (complex 5). All five subunits of F1 and most of the F0 subunits are nuclear encoded(Collinson et al. 1996). Only two proteins i-e, ATPase 6 and ATPase 8 are encoded by mtDNA (Boyer, 1993). The present study is designed to investigate the diversity and phylogenetic analysis of Thoroughbred Pakistani horse and donkey breeds on the basis of ATPase 6 and ATPase 8 genes. Availability: Items available for loan: UVAS Library [Call number: 2236-T] (1). Place hold Add to cart (remove)
	793.	No cover image available Detection And Analysis Of Improvised Explosive Devices Used In Terrorism Activities In Pakistan by Arslan Nazar (2012-VA-630) \| Dr. Sehrish Firyal \| Dr. Muhammad Sarwar \| Dr. Muhammad Wasim \| FaizaMasood. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Defence and security organizations are in steadyrequirement of finding new options for the detection of explosives. Fundamental applied research in this area focuses on uncovering of highly energetic substances as well as home-basedexplosives that could be a weapon of mass devastation (Marshal and oxley, 2009 yinon and Zitrin 1996, Scubert and Rimiski-Korsakove, 2006). Current methods of detection for explosives or highly energetic materials are based on a wide variety of technologies that focus on either massexplosives or little portions of explosives. Mass explosives can be distinguishedin some way by imaging features,character of the explosives charge, wires and detonators or unswervingly by spotting the chemistry and dielectric characteristics of the explosive substance. Trace recognition method relay on revealing of vapours given off by the explosives or on explosive’sconstituent part that are set down on nearbyexteriors (national Academy of sciences Committee, 2004). Even though, numerous published material is available about methods of sensing of explosives present in air,water, clothing,soiletc and these put forward the benefit of providing traceconfines of sensation at ppb intensities (Caron et al,. 2010; Hilimi and Luonge). Inthe bulk of the criminal acts, sampling is done at the scene trailed by a sample preparationmove, to be shortly processed by a particular technique for analysis. Sampling and samples preparation are amidmajor, shortcomings in explosive uncovering in many cases frightening the physical condition and life of examiner and the responding officer. Improvised explosive devices are widely used by military in wars and police to keep up regulation and command. Gush of terrorist activities and increase in criminal conduct have been a matter of great concern worldwide and particularly for Pakistan. There have been motiveless annihilation of private and community properties as well as industrial centres, causing irretrievabledamages to state and local markets and imperillinghumanexistence(Shen et al. 2005). Potentially perilous explosives like dynamite, varied military explosives havingnitroglycerine (NG), Cyclotrimethylenetrinitramine commonly known as RDX, Cyclotetramethylenetetranitramine and alternativehome-produced low explosives and provocative devices are now currently promptly obtainable to scandalous and terrorists. The haphazard and deliberate uses of these explosives consist ofextortion of cash and taking vengeance, unlawful transportation of prohibited substances, assassinations, terrorist and delinquent activities in numerous regions of the country (Sharma and Lahiri 2005). Recognition of detonating method, estimating the path ways taken by explosive transportation andarresting the anti-social charactersconnected with unstable materials and explosions is primary aim of explosive analysis. For this purpose various explosive substances and explosive remains are to be examined qualitatively and the ingredients are to be approximated quantitatively using primarily by thin layer chromatography (TLC). TLC is a technique employed for the screening of organic constituents at hand in the post blast samples. The identification of explosives containing alkylammonium nitrate is done by TLC. Secondly Gas chromatography with mass spectrometry (GC-MS) technique with the benefit of anelevated resolving supremacy is avitalapparatus for the analysis of chemical composition of explosives. The extremelyproficient GC analysis withcapillary columns authorizes the examination of explosive hydrocarbons, identical substances of nitroaromatics, hexogen (RDX) and the high explosive pentaerythritoltetranitrate (PETN) in a single run. The spectroscopic identification of explosive materials by FTIR is striking due to the intrinsicpotential of real-time detection, non-vicious analysis, and nominal sample preparation, thirdly the scanning electron microscope (SEM) produces an increased image of the sample based on the contact of an electron beam with the sample’s exterior. Finding of minutemasses of explosive remains play an important part in forces, inhabitant, and counter terrorism requests(Pacheco-Londono et al. 2005). To press on explosives sensor methods, present methods need to become affordable and transportable without disturbing the integrity of the devices. The uncovering of ordinary explosives as well as trinitrotoluene (TNT), RDX, HMX, 2,4,6 Trinitrophenyl-N-methylnitramine (TETRYL)Pentaerythritoltetranitrate (PENT), and NG were carried out using diverseprocedures(Sanchez et al. 2007). Detection of explosives is anparticularly relevant analytical concern for law enforcement personals and for the environmental protection agencies. As the use of explosive substances have been increased by the terrorists, problems have increased for law enforcement and environment and security agencies regarding the detection ofexplosives residues in baggage, parcels vehicles, aeroplane, on travellers, etc. In bomb scene investigations, it is important to find debris that includes detection of explosive residues. Mobile and hand held explosives detectors, similar to those used for detecting hidden explosives, can be of great help in detecting such residues. Several methods i.e. GC/MS, SEM, FTIR were used in Punjab Forensic Science Agency (PFSA) to analyze residues of explosives. The detection of landmines is an acute, urgent worldwide problem that needs specific and effective detection methods (Yinon 2002). Keeping in mind the above said situations, the project was designed with following objectives Availability: Items available for loan: UVAS Library [Call number: 2235-T] (1). Place hold Add to cart (remove)
	794.	No cover image available Isolation and Identification of Parasites From Available Raw Vegetables by Sawera Chaudhry (2008-VA-189) \| Prof. Dr. Azhar Maqbool \| Dr.Sarwat Naz \| Dr. Muhammad Latif \| Dr. Muhammad Avais. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Blank CD. Availability: Items available for loan: UVAS Library [Call number: 2232-T] (1). Place hold Add to cart (remove)
	795.	No cover image available DNA Based Characterization Of Arginase Gene From Geobacillus Sp. SBS-4s by Raabia Bibi (2012-VA-537) \| Dr. Muhammad Tayyab \| Dr. Abu Saeed Hashmi \| Dr. Muhammad Imran. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Geobacillus is a group gram-positive, rod-shaped, aerobic, endospore-forming and obligate thermophilic bacteria, isolated from the diverse habitats, hot springs, thermal environments, terrestrial soils, deep sea sediments (Zeigler, 2014), petroleum and soil of desserts (Claus and Berkeley 1986). It grows at a wide range of temperature from 45 to 75°C and pH ranging from 6.2 to 7.8 (Nazina et al. 2001). These bacteria survives at higher temperature where most of other living species fail to survive (Claus and Berkeley 1986). Geobacillus have achieved a significant population with a worldwide distribution, probably in large part due to adaptive features of their spores (Zeigler, 2014). These can be found singly or in short chains and motile by means of peritrichous flagella and is capable of secreting a wide variety of extracellular and intracellular enzymes i.e amylase, lipase, carboxypeptidase, cellulase, xylanase, protease and galactosidase (Fogarth et al. 1974; Obeidat et al. 2012). Geobacillus sp. SBS-4S was isolated from hot spring located in Gilgit, Northern areas of Pakistan. It was found to be an aerobic, gram-positive and rod-shaped bacteria having ability to hydrolyze a variety of sugars, carboxylic acids and hydrocarbons at elevated temperatures from 45 to 75°C. SBS-4S was found to be involved in the production of various intra and extra cellular enzymes (Tayyab et al. 2011). Arginase is the enzyme responsible for the degradation of arginine resulting in the production of urea and ornithine (Kaur et al. 2009). It is accomplished by the cleaving of the guanidinium group from arginine which yields urea (Turras et al. 2008). Arginase present in many mammals (Homo sapiens), Bacilli (cyanobacteria), protozoa (Entamoeba histolytica), yeast (Saccharomyces cerevisiae), fungi (Neurospora crassa) and plants (Lathyrus sativus) etc (Kaur et al. 2009). The crystal structure of arginases have been determined by X ray crystallographic studies. This is a manganese dependent enzyme. The enzyme shows its activity through the metal ion. Metal ion is actively responsible for the incorporation of water molecules essential for the activity of the enzyme. A second proposed mechanism, based on electron paramagnetic resonance (EPR) studies postulates direct coordination of the substrate to manganese and disruption of the aqua bridge. Arginases are homo-oligomers, with a typical subunit mass of 32 to 36 kDa (Bewley et al. 1999). There are two types of arginases, arginase-I and arginase-II, located in the cytoplasm and mitochondria, respectively. The principal ureagenic enzyme activity arginase-I is most abundant in normal mammalian liver and acts in coordination with the other enzymes of the urea cycle to sequester and eliminate excess nitrogen from the body. The second form arginase-II can be found in many organs, with the highest levels found in kidney and prostate where as lower levels in macrophages and lactating mammary glands (Iyer et al. 2002). Important role of arginase in controlling the cellular levels of arginine and ornithine, which are required for various critical metabolic processes, including protein synthesis and the production of creatine, polyamines, proline and nitric oxide (NO). Type II arginase is found in a variety of different tissues and have a key role in the regulation of urea cycle arginine metabolism by regulating levels of arginine in the cell (Bewley et al. 1999). The enzyme arginase plays key role in the pathogenesis of pulmonary disorders such as asthma through dysregulation of L-arginine metabolism and modulation of nitric oxide (NO) homeostasis and it also play role in the development of chronic airway remodeling through formation of ornithine with downstream production of polyamines and L-proline, which are involved in processes of cellular proliferation and collagen deposition (Benson et al. 2011). Arginase involved in tissue repair processes by the synthesis of L-ornithine, which is the precursor of polyamines and proline that are involved in cell proliferation and collagen synthesis (Maarsingh et al. 2009). Genetically engineered arginase as fusion protein with prolonged half-life and increased efficacy are used to treat different tumor lines that inhibit cell proliferation and impaired cellular migration in vitro and in vivo (Li et al. 2013). This is a arginine-degrading and ornithine producing enzyme and is used to treat arginine-dependent cancers (Yu et al. 2013). Chemically modified arginase-II has been employed for the treatment of taper liver tumor and L5178Y murine leukemia (Kaur et al. 2009). The enzyme was cloned and expressed in E. coli and subsequently conjugated to polyethylene glycol to increase the circulating half-life and decrease the immunogenicity of the recombinant mycoplasma enzyme. The human hepatocellular carcinoma, melanoma cell lines and tissue samples do not express argininosuccinate synthetase (ASS), making them auxotrophic for arginine and thus reasonable candidates for arginine deprivation (Yang et al. 2010). Arginase is induced in murine myeloid cells mainly by T-helper 2 cells cytokines and inflammatory agents and participates in a variety of inflammatory diseases by down-regulation of nitric oxide synthesis, induction of fibrosis and tissue regeneration. In humans, arginase I is constitutively expressed in polymorphonuclear neutrophils and is liberated during inflammation. Myeloid cell arginase-mediated L-arginine depletion profoundly suppresses T cell immune responses and this is a fundamental mechanism of inflammation-associated immunosuppression. Pharmacological interference with L-arginine metabolism is a novel promising strategy in the treatment of cancer, autoimmunity or unwanted immune deviation (Munder, 2009). Arginase has very important role in nitrogen fixation and fruit ripening (Yu et al. 2013). Putrescine (1,4-butanediamine) is the product obtained from arginine with the highest market value and it is used as an intermediate in a large number of industries, including the pharmaceutical industry, agrochemical industry and textile industry (Turras et al. 2008). Arginine is a semi-essential amino acid and is the precursor for the formation of nitric oxide (NO) by nitric oxide synthases (Getz and Reardon, 2006). One of the major functions of arginine within the body is as an intermediate in the urea cycle. In the cytosol of hepatocytes, arginase-I removes the guanidine group from arginine to produce urea and ornithine. Urea is then transported from the hepatocyte into the bloodstream and ornithine is used to regenerate arginine within the hepatocyte. Arginine deficiency causes several disorder like, hyper cholesterolemia, hypertension, diabetes mellitus, kidney failure, hyper homo-cysteinemia, smoking, and aging (Alvares et al. 2012). Arginine is used to modulate the cellular immune response during infection. The generation of nitric oxide from arginine is responsible for efficient immune response (Das et al. 2010). Arginine is synthesised in humans and other mammals from citrulline in two steps through the urea cycle enzymes, argininosuccinate synthetase (ASS) and argininosuccinate lyase (ASL). ASS catalyses the conversion of citrulline and aspartic acid to argininosuccinate, which is then converted to arginine and fumaric acid by ASL (Yang et al. 2010). Ararinase play important role in conversion of arginine to 1,4–butanediamine (a building block for nylon-4,6), through two main transformations: the hydrolysis of arginine to ornithine and urea; and the decarboxylation of ornithine to 1,4–butanediamine and carbon dioxide. Both steps can be catalyzed chemically or enzymatically (Turras et al. 2008). The present study deals with the characterization of arginase gene. Availability: Items available for loan: UVAS Library [Call number: 2244-T] (1). Place hold Add to cart (remove)
	796.	No cover image available Epidemiological Investigation And Risk Factor Analysis Of Brucellosis In Large Ruminants And Their Attendants At Govt. Livestock Farms In Punjab by Muhammad Raashid (2007-VA-496) \| Prof. Dr. Mansur-ud-Din Ahmad \| Dr. Muhammad Hassan Mushtaq \| Dr. Sehrish Firyal. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Pakistan has been renowned as an agricultural country. It is rich in livestock sector having fairly large populations of domestic animals. Among these, populations of cattle and buffalo are 38.3 and 33.7 million respectively. The importance of cattle and buffalo cannot be denied at any level as these are the principal farming animals and milk and beef are widely consumed locally in the country. The estimated annual milk production of cattle and buffalo include 17.372 and 30.462 million tonnes respectively and a combined 1.829 million tonnes beef for human consumption during 2012-2013 (Pakistan Economic Survey 2012-2013). Brucellosis, a worldwide bacterial zoonosis, is one of the most serious diseases causing huge loss to national economy and human beings among developing countries (Wu et al. 2013). The disease is endemic in Middle East, Central Asia, Africa, Mediterranean region and parts of Latin America (Gwida et al. 2010). Brucellae are Gram-negative bacteria, facultative anaerobic and intracellular pathogens. These show a wide range of host specificity. These coccobacilli measure from 0.6 to 1.5 µm long and 0.5 to 0.7 µm wide. Eight species have been identified in the genus Brucella such asBrucella abortus(B. abortus affecting cattle and buffalo), B. melitensis (sheep and goats), B. ovis (sheep), B. suis (swine), B. canis (dog), B. neotomae (desert rats), B. ceti (cetaceans) and B. pinnipedialis (pinnipeds) (Blasco 2010). This wide range of species covers almost all domestic animals however cats have found resistant. Generally it is considered as a reproductive problem in both male and female animals (Ficht 2003). Brucellosis has been listed as the second most serious zoonotic disease in the world after rabies by OIE (OIE 2009). B. abortus, the primary cause of Brucellosis in large ruminants, (cattle and buffalo), remains not only a significant threat as a source of human illness but also risks economy of the country (Makita et al. 2011). Present estimates of economic loss in meat and milk production resulting from Brucellosis are $800 million annually in the United States(OIE 2009). The incidence of the disease can be correlated to several factors including demographic and geographic factors(Soomro et al. 2014). Seroprevalence of the disease has been reported in different regions of Pakistan and ranges 3.25 to 4.4%(Naeem et al. 1990). Brucellosis in cattle and buffaloes can be recognized clinically by an abortion usually occurring form 6 months and onwards i.e. last trimester of pregnancy (Soomro et al. 2014). Brucellosis is principally a disease of sexually mature animals as it affects mainly the reproductive system and fertility of the animals. It significantly reduces the survival rate of newborns and also the milk yield (Sikder et al. 2012). Greyish white mucoid or mucopurulent discharges from the vagina, prior to parturition of cow, may show the clinical patterns of disease along withnormal patterns of parturition like swelling of the vulva, relaxation of pelvic ligament, enlargement of udder and discharge from the vulva (Shafee et al. 2012). Human infections as a result of Brucellosis range more than 500,000 annually round the world (Abo-Shehada and Abu-Halaweh 2011). Brucellosis can cause a wide range of symptoms similar to the flu and may also include fever (39-40°C), night sweats, headache, back pain and physical weakness. Severe form of infection may result in involvement of the central nervous system or the lining of the heart (Soomro et al. 2014). It is one of the principal public health problems for an agricultural country like Pakistan, where majority of the population is engaged in livestock farming (Shafee et al. 2012). Brucellosis in humans is a severely debilitating condition that usually requires prolonged treatment involving a combination of strong antibiotics. The treatment results in permanent and disabling sequel, and also in significant medical expenses along with loss of income due to loss of working hours. Brucellosis can be transmitted to humans by ways of inhalation, direct contact with infected animals or contaminated products of conception and ingestion of unpasteurized dairy products and undercooked meat or meat products (Gwida et al. 2010; John et al. 2010). Brucellosis can also be transmitted from infected animals to human beings who are in close contact with animal secretions like infected vaginal secretions, blood, urine, feces, aborted fetus, or those who consume unpasteurized milk or other raw milk products. Shepherds, milkmen, butchers, knackers, veterinary assistants, and abattoir workers are at high risk (Agasthya et al. 2007) Availability: Items available for loan: UVAS Library [Call number: 2245-T] (1). Place hold Add to cart (remove)
	797.	No cover image available Seroprevalence And Risk Factors Of Brucellosis In Ruminents In District Skardu Of Gilgit by Sajid Hussain (2008-VA-77) \| Dr. Muhammad Avais \| Dr. Iahtasham Khan \| Dr. Jawaria Ali Khan \| Dr. Shehla Gul Bukhari. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Brucellosis is among the vital zoonotic and transmissible bacterial diseases of most of the animal’s worldwide (Shafee et al. 2011). Various types of brucella species are the causative agents of bovine brucellosis. In bovines, brucellosis is mainly triggered by Brucella abortus, less repeatedly by Brucella melitensis and sometimes by Brucellosis suis. As it is a zoonotic disease so, the public health is near thoughtful risk. According to (Pappas et al. 2006), it is considered to be the collective zoonosis worldwide, moreover 5, 00,000 cases of brucellosis are reported annually in both animals and humans. It is a common problem of under developed countries with poor health programs. This disease has been eradicated from USA, Canada, Japan, and New Zealand however; it is still an uncontrolled hazard in highly endemic regions of Africa, Latin America, Middle East and Asia (Refai, 2002). According to Food and Agriculture Organization (FAO), World Health Organization (WHO) and Office International of Epizootics (OIE), brucellosis is considered the most wide spread zoonosis in the world (Schelling et al. 2003). The infection transfers via contact with the body secretions, aborted fetus, contaminated milk feeding, licking of aborted fetuses and also venereal disease. In animals, reproduction, fertility, reduced survival of newborn, decreased milk production and noticed able mortality of the adult are the main effects of brucellosis. (Al-Sous et al. 2004). It is characterized by abortion during 3rd trimester of pregnancy, weak calves, still births infertility, placentitis, epididymitis, orchitis and the excretion of organisms in milk and uterine secretions. According to public opinion brucellosis is work-related disease it has more effects on INTRODUCTION Page 2 Veterinarians, slaughter house and farm workers likely butchers and shepherds (Yagupsky and Baron 2005). Brucellosis occurs in cattle, Sheep, goats, swines, camels, dogs and it may also affect the other ruminants and marine mammals. The other names of brucellosis are Enzootic abortion, Contagious abortion, Bangs disease, Undulant, Malta and Mediterranean fever. It also causes significant losses in those animals which are sexually matured (Forbes and Tessaro 1996). The main causative agent of bovine brucellosis is Brucella abortus (Ali et al. 2014). The animals and persons, who are directly or indirectly in contact with infected animals, its products and by-products, may acquire infection easily. The main source of human infection is the raw milk of the infected animal as it excretes brucella in milk (Shimol et al. 2012). The Serological, Bacteriological and Molecular Methods are used for the diagnosis of brucellosis in the farm animals and humans. Bacteriological method is considered to be the most standard method among all of the above mentioned methods (Sathyanarayanan et al. 2011). However, due to non-availability of ‘BSL-3 laboratory’ for culturing and isolation, time taking nature and because of the safety concerns of the laboratory workers, it is not widely applicable. According to Alton et al. (1998), in Pakistan, at animal and herd level, the molecular tools, like ‘Polymerase Chain Reaction’ (PCR), are not economical for screening due to limited resources. ‘Milk Ring Test’, a serological test, is economical and mostly used for the diagnosis of brucellosis however according to Huber and Nicoletti et al. (1986), its specificity and sensitivity is doubtful even now. In most of the countries, for the control and eradication of the disease the serological diagnosis is widely used. Although, different techniques are used to detect the brucella antibodies but, different antibody isotopes were detected by each one of the technique to INTRODUCTION Page 3 determine seropositive animal to brucellosis (Nielsen et al. 2001). The serological test is more sensitive as compare to the culture techniques but its specificity was quite low (Al-Attas et al. 2000). Diverse studies have been conducted worldwide to evaluate different brucella diagnostic techniques. ELISA was found more sensitive and specific as compared to other serological techniques and the findings confirmed that standard tests, like Rose Bengal Plate test (RBPT) and Serum Agglutination Test (SAT) only detect antibodies to the LPS (lipopolysaccharides) antigen of Brucella abortus so, it has low specificity (Al-Attas et al. 2000). The advanced in specificity and sensitivity levels of the ‘Serological Diagnosis’ as compared to the other conventional technique are due to the introduction of the indirect immuno-enzymatic technique (Mousing et al. 1997). The indirect ELISA uses cytoplasmic proteins to measure the immunoglobulins of classes M, G, and A. The clinical situation can thus be interpreted better further it also overcomes some of the short comings of serum agglutination test. A comparison shows that ELISA is more specific and sensitive than SAT (serum agglutination test) Almuneef and Memish (2003). According to certain studies conducted worldwide and also in Pakistan, it has been proved that ELISA tests are more accurate and reliable than other tests like Serum Agglutination Test (SAT) and Milk Ring Test (MRT), showing high seropositive samples. Shafee et al. 2011 confirmed by using i-ELISA for the prevalence of brucellosis in Quetta city and the result was found to be 3 and 8.5 percent overall prevalence in cattle using MRT and indirect ELISA respectively. The Gilgit Baltistan is at developing stages in the livestock sector, small farmers owning 95% of the Gilgit Baltistan’s livestock and are landless, providing an opportunity for improving INTRODUCTION Page 4 the quality of their livestock. The areas selected for the study were the villages (Shagaribala, Shagari kalan, Kathpanah, Chunda, Kachura, Hussain abad and Sadpara) of Skardu district, which are very important from livestock point of view. There is a dire need of screening these animals for the zoonotic point of view. It is the first time that effort for the diagnosis of brucellosis in Gilgit Baltistan by using the serological test like Rose Bengal Plate Aggulutination Test (RBPT) and Indirect Enzyme Linked Immunosorbent Assay (ELISA) has been made. Availability: Items available for loan: UVAS Library [Call number: 2246-T] (1). Place hold Add to cart (remove)
	798.	No cover image available A Study On The Correlation Of Serum Electrolytes And Trace Elements Along With Associated Risk Factors In Diarrheic Buffalo And Cattle Calves by Fazal Abbas (2006-VA-182) \| Dr. Muhammad Ijaz \| Dr. Jawaria Ali Khan \| Prof. Dr. AzharMaqbool. Material type: Book; Literary form: not fiction Publisher: 2014Dissertation note: Pakistan being an agriculture country has 70% of its population that is totally dependent on agriculture and livestock sector which plays an important role in the economy of the country. Livestock has contribution of about 55.4 percent to the agricultural value added and 11.9 percent to the National GDP. Pakistan has population of about 64.9 millions of goat, 38.3 millions of cattle, 33.7 millions of buffaloes and 28.8 millionsheep population according to the economic survey estimate. Mutton production is about 643 million tons and beef production is about 1,829 tons out of total 3,379 million tons of meat production. Livestock produces approximately 49,512 million tons of milk out of which buffalo produces 62.0% while cattle produces 35% and sheep-goat produces 1.69% (Economic Survey, 2012-2013). Pakistan is the 3rd largest milk producing country in the world (Afzal, 2010). Diarrhea can be defined as an increased in volume and quantity of fecal excretion. The diarrhea may contain mucous, blood, poor odor and variation in color then the normal feces.On the basis of time period, diarrhea has different types likeacute, constant and chronic. Time Period of acute diarrhea is not more than 14 days while in case of persistent/constant form, it continued for more than 14 days and in chronic case the diarrhea remain for a time period of 28 days(Bazeley, 2003) Diarrhea is a leading factor towards the death of calves. Neonatal calf diarrhea is among the very important diseases of the calves worldwide. It is animportant contribution to the major economic losses in cattle industry. The cause of calve diarrhea may be infectious or non-infectious (Elhassan et al. 2011). Bad hygiene, overpopulation, overfeeding, hot/cold temperature, feeding the calves artificially and the colostrum’s deprivation are all predisposing factor in the complex etiology of the disease (Hemashenpagam et al. 2009). Infectious agent and the co-infection of different multiple pathogens are common in calves having diarrhea. Rotavirus, Cryptosporidium, corona virus and enterotoxigenicE. coli collectively are associated with 75-95% of the infections in calf diarrhea around the world. Clinically, Neonatal calf diarrhea is characterized by profuse acute watery diarrhea, progressive dehydration, acidosis and death within a few days. The degree of dehydration is estimated by the physical examination of calf and has been introduced as a reliable method (Radostits et al. 2009). Experimentally the intestinal potassium and sodium combination can be bothered by different causes and various types of factors. However, electrolytes that are built up in the gastrointestinal tract have a function to reduce the water assimilation. Due to this, the organism losses water and the electrolyte commonly (Smith, 2009) To evaluate the serum electrolytes as well as the acid-base imbalance, there is a need of laboratory tests which cannot be measured regularly in field condition.To check the degree of dehydration is a uniform protocol and is anticipated by body condition score of calves (Naylor 1989). The electrolytes deficiency in neonatal diarrheic calves might be the cause of death in some cases. Althoughit is understood that serum concentrations of potassium (K) and sodium (Na) are very much necessary with reference to the fluids composition used for treatment purpose (Rucker et al. 2008). Trace elements have also important part inthe reproduction, growth and productivity of the householdanimals. The imbalance and Difference in ratio of minerals leads towards both production and economic losses throughout the world. The important symptoms of trace element deficiencies that can be clinically shown in animals are anemia, diarrhea, loss of hair, pigmentation loss, growth disorders in bones, difficulty during walking, a flaky deposit in skin, bending, hyperkeratosis, Para keratosis, lack of appetite, decrease in reproductivity and fertility, young animal growth disorders, Tetany, reduction in protein synthesis, immunity compromised calves, abortion related to non-infectious factors and pica. However, reduction in the concentration of trace elements like cobalt, copper, iron, iodine, manganese, selenium or zinc leads to lower reproduction rates and lactation. Untreated changes in the serum concentrations of Ca, Mg and some trace elements may be the root of cause of some death or post diarrhea complications such growth retardation (Tajik and Nazifi, 2012). The serum values of calcium (Ca) and magnesium (Mg) that is abnormal persists for a significantly long duration after the treatment of neonatal diarrheic calves. The normal serum concentration of Ca in cow has been reported as 2.43-3.1 mmol/L while the mean serum Ca in diarrheic calves reported was 1.297mmol/L. The normal serum concentration of Mg in cow has been reported as 0.74-0.95 mmol/L while the mean serum Mg was reported to be 0.8145mmol/L (Kaneko et al. 2008). There are many advantages of using the hypertonic saline solution (7.5% NaCl; 4ml/kg BW) in diarrheic buffaloes and cattle to resuscitate them. Infusion of Hypertonic saline solution resulted in significant increase in sodium and chloride level in serum. The important feature for the successful and complete resuscitation of hypovolemia along with endotoxaemia in diarrheic buffalo calves is the total amount of sodium. The infusion of Hypertonic saline solution is quite safer and it does cause hypernatremia but not for a prolonged period. So, hypertonic saline solution has advantage of resuscitating the calves from acidemia and hypovolemia. It was also helpful in the improvement of oxygenation and cardiovascular performance (Zafar et al. 2012). The neonatal calf diarrhea can be cured by using the electrolyte therapy like ringer lactate, non-steroidal anti-inflammatory medicines and antibiotics in case of infectious diarrhea and through better farm management depending upon the root of cause (Radostits et al. 2009). There is a hypothesis that treatment of diarrheic calves with NSAIDs attenuates the behavior of sickness as well as gastrointestinal discomfort and encourages the calves to maintain an appetite supports the calves for better performance (Ghanem et al. 2012) Availability: Items available for loan: UVAS Library [Call number: 2220-T] (1). Place hold Add to cart (remove)
	799.	No cover image available Epidemiological Studies And Chemotherapy Of Postparturient Haemoglobinuria In Buffaloes by Muhammad Ijaz Ul Haq (2008-VA-83) \| Dr. Jawaria Ali Khan \| Dr. Muhammad Avais \| Prof. Dr. Mian Abdul Sattar. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: The district Gujranwala lies at northern part of the Punjab in Pakistan. It is situated between two main cities, in North is Gujrat and in South, there are Sheikhupura and Lahore. The majority of the population lives in the rural areas and mainly earns their livelihood through agriculture. The source of irrigation is perennial and non-perennial canals supplemented by tube wells. This area is heavily populated with buffaloes rather than cattle. Buffalo is playing a foremost role in the national economy by producing milk, meat and draught power. Out of total milk produced in the country, buffalo contributes about 68 %. Due to high fat contents of buffalo milk, it is the ideal species in Pakistan (Bilal et al. 2006). Buffaloes suffer from many fatal diseases throughout the year causing irretrievable economic losses in the GDP. Among these fatal diseases, Postparturient haemoglobinuria is a frightening problem for the economy of Pakistan and as well as for the whole world. Postparturient haemoglobinuria is a periodic condition seen worldwide that most frequently affects high-yielding dairy animals at the onset of lactation. It is characterized by development of per acute intravascular hemolysis and anemia with potentially lethal results. Beef and non-lactating cattle are hardly ever affected. The exact cause is unidentified, but phosphorus reduction or hypophosphatemia is known to be a major predisposing factor. Decrease in the Phosphorus level of RBCs is known to raise osmotic tenderness of the RBCs, probably predisposing to intravascular hemolysis. A parallel condition reported in New Zealand was linked with copper depletion, potentially building RBCs were more prone to oxidative trauma. Other potential causes were hemolytic or oxidative plant toxins (Michael A. Moses and Aiello 2014). In buffalo rearing countries mainly in India, Pakistan and Egypt, Postparturient haemoglobinuria was a major problem as described by (Pirzada and Hussain 1998). Acute hypo phosphataemia was linked with high producing buffaloes and characterized by intravascular hemolysis (Kurundkar et al. 1981). Postparturient haemoglobinuria was a disease of high yielding buffaloes in district Attock, Rawalpindi, Jhelum and Faisalabad where soil was deficient in mineral contents. The disease was distinguished by icteric and inflexible constipation in pregnant animal (Hussain et al. 1991). Postparturient haemoglobinuria was mainly disease of buffaloes and found in almost all the districts of Pakistan (Pirzada and Hussain 1998). In buffaloes, Postparturient haemoglobinuria occurred mostly after 3rd week of parturition during 3rd to 5th lactation having a period of 5 to 6 days of illness (Nagpal et al. 1968). The occurrence of hypophosphatemia was highest in buffaloes in progressive pregnancy or in 3rd to 6th lactation (Gautam et al. 1972). Multiparous females were mostly affected by Hypo phosphataemia and a range of etiological factors were reported to be related with the disease in unusual parts of the world (Singari et al. 1991). Dietary phosphorus shortage and rations containing cruciferous plants were supposed causes of rigorous hypo phosphataemia and had been associated with hemolytic anemia in cows and buffaloes (Heuer and Bode 1998). Mucous membranes turned pale or might become icteric with the development of anemia and breathing became rapid and shallow with tachycardia (Spears 2003). During third to sixth lactation of adult dairy buffaloes, this disease was more frequently seen, showing weakness and recumbency (Macwilliams et al. 1982). The occurrence of the disease in the total cattle population was very stumpy with a case fatality rate ranging from 10% to 50% (Madsen and Nielsen 1939). Sporadically, farms with a predominantly elevated incidence might be encountered but typically only one or two cases were clinically evident at one time (Freudenberg 1955). In Australia, about 70% cases were reported within 30 days of calving (Mulijns and Ramsay 1959). Bulls, ante partum cows, heifers less than two years old and beef cows were rarely affected. A disease called as "red water" in Ontario, was allied with numerous predisposing factors which integrated recent parturition, intense milk production, dietetic phosphorus absence, utilization of turnips, rape, kale, green alfalfa and sugar beet pulp (Macwilliams et al. 1982). Postparturient haemoglobinuria was one of the foremost and economically important diseases of dairy animals in Pakistan, India and elsewhere in the world (Macwilliams et al. 1982; Chugh et al. 1996; Pirzada and Hussain 1998). Diagnosis was done on the basis of clinical signs, urinalysis and hematological reports of the examined animals (Madsen and Nielsen 1939). In a survey conducted during 1996 in Punjab (Pakistan), mortality rate due to Postparturient haemoglobinuria in buffaloes and cattle was 5% which translated into estimated annual losses of Rs. 490.2 and 153.1 million, respectively (Farooq et al. 2007). Availability: Items available for loan: UVAS Library [Call number: 2210-T] (1). Place hold Add to cart (remove)
	800.	No cover image available Productive And Reproductive Performance Of The Parents And The Growth Performance Of Subsequent Progeny As Influenced By Molting In Japanese Quails by Muhammad Imtiaz Azam (2013-VA-566) \| Dr. Jibran Hussain \| Prof. Dr. Muhammad Akram \| Prof. Dr. Khalid Javed. Material type: Book; Literary form: not fiction Publisher: 2015Dissertation note: Japanese quail is a member of order Galliformes, family Phasianidae, genus Coturnix and specie Japonica. Scientific name of Japanese quail is Coturnix coturnix japonica (Mizutani, 2003). Japanese quail attained significance as agriculture specie due to its unique flavor of eggs and meat hence got importance as a food animal (Kayang et al. 2004). Egg production is important in south East Asia whereas meat is an important product in Europe (Baumgartner, 1994: Minvielle, 1998). Female quail starts laying at the age of 6 weeks and constantly produces eggs for at least one year. Quail is efficient converter of feed, with each egg a female deposits an edible package of 8 percent of her own body weight as compared to 3 percent in case of chicken (Martin et al. 1998). Molting in avian species is the periodic shedding and replacement of feathers as well as rejuvenation of the reproductive system (Berry, 2003). Molting has been conducted through different techniques including photoperiod reduction, feed restriction, hormone administration, feeding dietary salt of zinc, aluminium and/or iodine (Khan et al. 2011). Molting has been associated with sudden change in physiological biochemistry which requires restoration before coming into production (Khan et al. 2011). The most important advantage of molting is the rejuvenation of reproductive system which increases tissue efficiency, development of reproductive system, loss of fat on female reproductive system, hence better post-molt performance (Park et al. 2004). Attia et al. (1994) explored that bird’s egg shell quality, albumen quality, and hatchability are influenced by molting method. Molting is followed by ovary and oviduct histophysiological changes (De-cuypere and Verheyen 1986); affecting egg characteristics, hatchability and chick quality. CHAPTER 1 INTRODUCTION INTRODUCTION 2 Induced molting is an effective management tool, enabling to meet egg production with demand and even providing greater economic benefit as it reduces bird cost per dozen of eggs because it lengthens the productive life of the hen (Carey and Brake 1987).Induced molting is used in the poultry industry to increase the reproductive lifespan of birds leading to new productive cycles (Laurentiz et al. 2005). In the induced molting methods, 25-30% of body mass reduction from initial weight is ideally required to achieve a maximum post-molt performance (Brake, 1993). Induced molting has been reported to improve egg production and other performance parameters (Akram, 1998; Usman et al. 2013). As to body weight loss (BWL), research studies point out that BWL levels between 25 and 30% promotes better post-molting production in a second laying cycle (Hussein, 1996). Reduction in ovary weight depends upon the duration of fasting or body weight loss levels (Berry, 2003); 15% body weight loss results in heavier eggs as compared to 20-25% (Buhr and Cunningham 1994). Post-molt reproductive improvement is related to the regression and to the regeneration of the cells of reproductive system (Brake and Thaxton 1979). Egg quality and hatchability decrease with the age of the breeder and are reported to be improved in terms of Haugh Units and overall hatchability after molting (Lapaˆo et al. 1999). Induced molting not only helps in improving production performance and egg shell quality but also increases profit by optimizing the use of replacement pullets on commercial layer farms (Bell, 2003). The combination of feed withdrawal and light reduction was most widely used to induce molting in the US egg industry in the past. Most producers used some form of feed withdrawal for periods of 5 to 14 days in breeder birds (Bell and Kuney 2004). It is further reported that induced molting improves the post-molt performance of the laying hens compared to the pre-molt performance, this improvement includes egg size, shell quality, internal INTRODUCTION 3 egg quality, and the rate of egg production. Egg size increases significantly after a molt with a higher percentage of higher grade eggs (Zeelen, 1975). Hatchability is influenced by molting method (Attia et al. 1994). Several researchers studied a relationship among hen age and hatchability (King’ori, 2011). Induced molting through feed withdrawal and photoperiod reduction is an effective method to improve egg production, egg quality, fertility and hatchability of broiler breeders (Moustafa et al. 2010). The effect of molting in chicken and turkey is very well studied and some basic facts have been well established but its significance in quail production is still having a question mark. Reason being the availability of little information on this aspect of quail production. It is also being felt that in Pakistan, especially at Avian Research and Training Center selection for higher body weight is being practiced since last 5-6 years and with the passage of time final body weight (4 week) of quail is almost doubled. These genetically improved quails need to be subjected to maximum experimentation in order to study their potential and standardize their management requirements. Present study is also an effort in the same direction with the main objective to explore the effect of molting on productive and reproductive performance as well as subsequent progeny growth performance in Japanese quails. Availability: Items available for loan: UVAS Library [Call number: 2249-T] (1). Place hold Add to cart (remove)

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