3.
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).
4.
Isolation Of Surface Antigen 1 Gene Of Toxoplasma Gondii And Its Cloning In The Expression Plasmid
by Farooq Riaz (2008-VA-231) | Dr. Muhammad Imran Rashid | Prof. Dr. Kamran Ashraf | Dr. Jawad Nazir.
Material type: Book; Literary form:
not fiction
Publisher: 2015Dissertation note: Toxoplasma gondii is an obligate intracellular protozoan parasite which comes under the classification of phylum Apicomplexa, subclass Coccidiasina (Cornelissen et al. 1984). Toxoplasmosis is one of the more common parasitic zoonoses world-wide caused by Toxoplasma gondii which is a facultatively heteroxenous, polyxenous protozoon that has developed several potential routes of transmission within and between different host species (Tenter et al. 2000). It is the most important source of toxoplasmosis in humans and animals, with cat as definite host and warm-blooded animals as intermediate host (Frenkel et al. 1970). It was first described by Nicolle, Manceaux and Splendore in 1908 from rodents Ctenodactylus gondii (Black and Boothroyd 2000).
Toxoplasmosis is a worldwide parasitic disease and it is estimated that about one-third total population of the world is seropositive for Toxoplasma gondii (Tenter et al. 2000). Prevalence of infection varies between countries, geographical areas and ethnic groups living within a specific region. In Humans, infection rates range from 50% to 83% in Brazil (Tenter et al. 2000; Dubey et al. 2012). Seropositivity of Toxoplasma gondii in China is about 8% with continuously increase while in USA its 10-15%, 50-70% in France and 20% in UK (Dubey and Jones 2008; Zhou et al. 2008; Jones et al. 2009). Prevalence of toxoplasmosis is higher in males (79%) as compared to females (63.4%) and the age dependent sero-prevalence reaches >92% in age group of 40 to 50 (Coêlho et al. 2003).
Transmission occurs through the ingestion of contaminated vegetable /water with oocysts, as well as the ingestion of contaminated raw/undercooked meat with tissue cysts (Gajadhar et al. 2006). Transmission may also occurs by ingestion of sporulated oocysts, or bradyzoites within cysts present in the tissues of numerous food animals (Esteban-Redondo et al. 1999). In humans, transmission of Toxoplasma gondii happens mainly by eating raw or undercooked contaminated meat, raw cow’s milk and birds eggs, swallowing oocysts dis-charged in feces of infected cats, inoculation of trophozoites through the skin, or by inhalation (Wallace 1971; Wallace 1973; Bannister 1982).
In humans, mostly infections (congenitally or post-natally acquired) are asymptomatic. Congenital infection occurs only when a woman becomes infected during pregnancy. Congenital infections acquired during the first trimester are more severe than those acquired in the second and third trimester (Desmonts and Couvreur 1974). The main clinical signs associated with toxoplasmosis are anorexia, weight loss, lethargy, dyspnea, ocular signs, pyrexia, vomiting and diarrhea, jaundice, myositis, encephalitis and abortion. Humans become infected when they ingest the toxoplasma at infective stages (oocysts and tissue cysts) found in some cat feces and in raw meats.
In addition to being hazardous to livestock animals, the T. gondii infection is also important due to its zoonotic implications (Jittapalapong et al. 2005). Congenital abnormalities in humans, such as microcephaly, hydrocephaly, chorioretinitis, convulsion, cerebral calcification, epilepsy, blindness, deafness, and mental retardation may occur if the mother acquires infection during pregnancy (Jones et al. 2003). In addition to congenital anomalies, T. gondii also causes severe neuropathologic infections in immuno-compromised hosts, such as AIDS and cancer patients receiving chemotherapy (Del Valle and Piña-Oviedo 2005).
Seroprevalence studies of T. gondii among domestic animals in South-Western Pakistan has indicated considerable prevalence (25% in cattle, 2.5% sheep) (Zaki 1995) and suggesting potential transmission to the human community. Small scale study in urban area of Rahim Yar Khan (Punjab), Pakistan has revealed that the overall prevalence of toxoplasmosis in food animals is 19% (Ramzan et al. 2009). Another study has already been published that untreated patients with leprosy in Pakistan have shown significant seroprevalence (29.6%) of antibodies against T. gondii (Hussain et al. 1992).
Vaccine against toxoplasmosis is not available yet with one exception (“Toxovax” for sheep). Vaccine against T. gondii in animals used for human consumption may block the possible transmission to humans (Bhopale 2003). SAG1, among one of the major antigenic components of Toxoplasma gondii is a major surface antigen identified on the surface membrane of this parasite using a monoclonal antibody (Handman et al. 1980). SAG1 is an important surface antigen, expressed by tachyzoite form of T. gondii and is a putative candidate for vaccine and diagnostic against toxoplasmosis (Sharma et al. 1983; Godard et al. 1990). Immunization with SAG1 adjuvanted with saponin Quil A or incorporated in lysosomes provided total protection after challenge (Bülow and Boothroyd 1991; Khan et al. 1991). SAG1 is single copy gene with no introns (Burg et al. 1988), regulates both humoral as well as cellular Th1 immune responses (Liu et al. 2008) and is powerful candidate for vaccine against toxoplasmosis. SAG1 is a potent candidate of diagnostics for detection of serum antibodies against toxoplasmosis in Man and animals (Abu-Zeid 2002).
Availability: Items available for loan: UVAS Library [Call number: 2258-T] (1).
6.
Study On Prevalence Of Intestinal Nematodes In Buffalo And Comparative Efficacy Of Herbal And Conventional Drugs Against Intestinal Nematodiosis In Buffalo Calves
by Abdul Rehman Qureshi (2014-VA-09) | Prof. Dr. Kamran Ashraf | Dr. Imran Rasheed | Prof. Dr. Aneela Zameer Durrani.
Material type: Book; Literary form:
not fiction
Publisher: 2016Dissertation note: Parasites are a major cause of disease and production losses in livestock, frequently causing major economic loss and impacting on animal health. In livestock roundworms are deliberated the important economically upsetting internal parasites. Although buffalo can be diseased with tapeworms and flat worms, their effect on animal performance is minimal compared to the round worms. Buffalo feed on dry concentrate are less infected with parasite as compared to those who fed on pastures. The timing and frequency of anthelmintic treatments under such climatic conditions will vary greatly from place to place. Humid climates are permanently favorable for the development of infective larvae. With the frequently use of one or more dewormer animal produces anthelmintic resistance also its cost a lot for large herds. Herbal medicine is better option for control of intestinal worms. Herbal drugs are cheap, easy available and easy in administration.
The present study was designed to
1. Check the prevalence of intestinal nematodes in the buffalo population.
2. To determine the efficacy of herbal drugs against intestinal Nematodes in buffalo calves
3. To evaluate the comparison of effectiveness between herbal and commercial drugs to control the intestinal Nematodiosis in buffalo calves.
One hundred buffalo’s faecal samples were examined to check intestinal nematodes prevalence. All buffaloes belonging to various breeds were examined. 56 (93.33%) were Mix breed, 13 (72.22%) Nili Ravi breed and 18 (81.82%) of Kundi breed were positive for intestinal nematodiosis. 47
SUMMARY
Among the examined (87 %) buffaloes were found positive for nematodiosis. Ten buffaloes found positive (10 %) were less than 12 months, 25 buffaloes were between 1-2 year, 39% buffaloes were between 2 - 4 year and 13 buffaloes were above 4 years old were found positive for intestinal nematodiosis.
Among these buffaloes, 65 were male and 35 females. Out of male buffaloes 55 were found positive. While among 35 females 32 were positive for intestinal nematodes.
A total of 30 infected buffalo calves, of various ages (8-12 months), both sexes average body weight of 100 kg and naturally infected with intestinal nematodiosis were used for anthelmintic trials. These were randomly divided into 3 groups i.e. A, B, and C each having 10 calves. Group A and B were treated with herbal medicine. Group A was treated with dried powder Nigella Sativa (Kalonji) seeds at dose level of 250 mg/kg body weight. Group B was treated with Citrullus colocynthis (Kor Tumbha) fruit dried powder at dose level of 250 mg/kg body weight, group C was treated with Albandazole at dose level of 7.5 mg / kg body weight. The sample were taken on 0 day, 7th day, 14th, 21st and 28th day and EPG was determined by modified McMaster technique.
Statistical analysis was done using the statistical package for social science, (SPSS) version 20 (Chicago IL, USA). Data was presented as (mean+ S.D), the group descriptive measures were compared by CR Design (Anova) and applying differences were considered significant at P < 0.05. Post hoc test using Duncan multiple range test, to check the pair wise differences and alpha M. There was highly significant difference between commercial and herbal drugs. There was small significant difference between herbal drugs Nigella sativa and Citrullus 48
SUMMARY
colocynthis, both were highly effective against intestinal nematodiosis but less effective than Albandazole.
It is observed Nigella sativa dose showed a significant reduction in EPG .p value is p > .2284 at o day and at 7th day P>0.0146 ,at 14th day p> .0029 . There was also a significant decrease in EPG by Citrullus colocynthis but when compared these herbal drugs with commercial drugs the efficacy of herbal drug is 100 % at 21st day.
Recommendation.
Both herbal drugs Nigella sativa and Citrullus colocynthis used in trial were found highly effective against intestinal nematodiosis in buffalo calves but less effective than synthetic drug Albandazole hence, these herbal drugs cannot be recommended to be used as routine deworming of animals at farm level.
Keeping in view effectiveness of these herbal drugs in early age and having no side effects, it is recommended to be administered as feed additive to enhance immune-potentiation, effective anthelmintic and liver tonic.
There is dire need to carry out more research with increased dose rate of these herbal drugs and also use in combination with other herbal as well as synthetic drugs to evaluate its synergistic effect so farmer can be benefited of its maximum potential. Availability: Items available for loan: UVAS Library [Call number: 2637-T] (1).