1.
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: ; 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).
2.
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: ; 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).
3.
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: ; 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).
4.
Molecular Diagnosis And Therapeutic Trials Against Bovine Fasciolosis In And Around Okara
by Hafiz Farooq Ahmad (2008-VA-93) | Dr. Muhammad Ijaz | Dr. Waseem Shahzad | Dr. Jawaria Ali Khan | Dr. Shehla Gul Bokhari.
Material type: ; Literary form:
not fiction
Publisher: 2015Dissertation note: Agriculture sector plays a pivotal role in the economy of Pakistan. At present it
participates 11.4% to GDP. Agriculture provides 45% employment to labour of our country
and contributes in the development of other sectors of the economy. The livestock sector
occupies a distinguishing position in the National Agenda of economic development. It
provides net source of foreign income. In the history livestock has been dominated by small
holders to meet their needs of milk, food safety and cash earnings on daily basis. Besides,
livestock is considered a source of employment generation at rural level. It plays an important
role in poverty mitigation and keeps in elevating the socio-economic situation of our rural
commonalities. Livestock share approximately 55.4 percent to the agricultural value added
and 11.9 percent to national GDP during 2013-14. Anonymous (2013-14).
Parasitism is one of the major problems lowering livestock productivity round the
earth Vercruysse and Claerebout et al. (2001). The significance of helminthes infections is
increased manifold in developing countries like Pakistan where 65.2% population is rural
(Population Census Organization (2007) depending upon livestock for their incomes and
where parasitism acts as a serious trouble for livestock economy Chaudhry et al. (1984).
Among helminthes infections, fasciolosis commonly called as liver fluke disease is of vital
importance due to its wider spectrum of ultimate hosts Rondelaud et al. (2001) causing acute
and chronic infections Sampaio-Silva et al. (1996). The disease is primarily caused by
Fasciola hepatica and Fasciola gigantica Soulsby et al. (1987). Fasciolosis is a parasitic liver
infection of wild and domestic ruminants caused by genus Fasciola, which has worldwide
distribution Soulsby et al. (1986). Fasciolosis causes economic losses as a result of
mortalities, abortions, retard growth, reduced milk and meat production, condemnation of
infected liver and emaciated carcasses and cost of animal treatment Gracey and Collins et al.
(1992). Fasciolosis caused by F. hepatica is a cause of important economic losses in
ruminants. The disease is widely spread throughout in Africa, Asia and the Pacific. Although
mostly a problem of young stock, the disease is also found in older animals where it
adversely affects health, growth rate and development. Apart from its great veterinary
importance throughout the world, fasciolosis caused by both F. hepatica and F. gigantica has
recently been shown to be a re-emerging and wide spread zoonosis affecting a number of
human populations Mas-Coma and Bargues et al. (1997); Esteban et al. (2003).
Prevalence of fasciolosis infestation in buffaloes is 49.01%. The infestation of
fasciolosis was optimal from January to September, while least during October to December.
Fecal samples indicated F. hepatica prevalence 65%. Whereas prevalence of F. gigantica
was observed higher in adult cattle as compared to cattle calves by fecal egg counts Khalil et
al. (2009). 4% Buffalo calves infested with trematodes. Availability of intermediate host and
the grazing habits of the final host determines the epidemiology and seasonal pattern of
infection with trematodes Pfukenyi et al. (2005); Bhutto et al. (2002). The life cycle of F.
hepatica includes many stages which develop in the environment or the intermediate host.
Metacercariae which is the infective stage encysted and ingested by grazing herbivores.
Temperature and rainfall are the important factors affecting the life cycle and the prevalence
of F. hepatica infection McCann et al. (2010). Many studies revealed that F. hepatica is
endemic in buffaloes, cattle, goats, sheep and humans in Pakistan Ijaz et al. (2009); Iqbal et
al. (2007); Khan et al. (2010) and Qureshi et al. (2005).
Fasciolosis is the disease by which about 250 million sheep and 300 million cattle are
potentially affected worldwide Boray et al. (2005), and more significantly infects all
ruminants Iqbal et al. (2007). F. hepatica and F. gigantica are the two liver flukes commonly
reported to cause fasciolosis in ruminants Walker et al. (2008). Infected cattle can exhibit
Introduction
3
poor weight gain and dairy cattle have lower milk yield, and possibly metabolic diseases
Mason et al. (2004). Losses due to fasciolosis in the United Kingdom and Ireland alone are
more than £18 million a year Mulcahy and Dalton et al. (2001); €52 million a year or €299
per infected animal in Sweden Schweitzer et al. (2005); 0.26 million USD annual due to
fasciolosis associated liver condemnations in cattle slaughtered in Kenya Kithuka et al.
(2002). In Pakistan, 35697 USD (3141360 PKR) are reported in only one tehsil of Punjab
province, the Sargodha T.U. Rehman et al. (2013). While Fasciolosis is prevalent in whole
Punjab province of Pakistan but the marshy areas such as regions of Gujranwala, Lahore,
Multan, Faisalabad, Jhang, Muzaffargarh, Sheikhupura, and Sargodha are of major concern.
Fascioliasis in ruminants causes substantial economic losses, estimated at US$ 2
billion per annum worldwide, to rural agricultural communities and commercial animal
producers due to death of infected animals, condemnation of affected livers and production
losses associated with reduced feed conversion efficiency Urquhart et al. (1996); Spithill and
Dalton et al. (1998). In tropical countries, fascioliasis is prevalent up to 90% and is
considered the most important helminthes infection of cattle Spithill and Dalton et al. (1998).
Most important, human can also become infected with Fasciola spp. and the disease is
referred to as human fasciolosis. It is estimated that 2.4 million people in more than 60
countries are infected and the number of people at risk is more than 180 million throughout
the world Haseeb et al. (2002); Mas-Coma et al. (1999); Ishii et al. (2002). Khalil et al.
(2009) recorded 49.01% prevalence of fasciolosis infestation in buffaloes. He also observed
that optimum infestation was seen from January to September, while minimum during
October to December. Whereas Bhutto et al. (2002) recorded 4% buffalo calves infested with
trematodes.
Introduction
4
Morphological identification of Fasciola species requires significant parasitological
skills and is not an accurate method of characterization, especially for the ‘intermediate’ form
Kendall et al. (1965); Lin et al. (2007); Le et al. (2008). Hence, different molecular tools have
been developed during the last decade for the accurate identification of Fasciola spp.
Marcilla et al. (2002); Velusamy et al. (2004); Cucher et al. (2006); Magalhaes et al. (2008);
Ai et al. (2010). Conventional techniques like fecal examination used for its diagnosis are not
comprehensive because of Species similarity in distribution in many countries of East and
North Africa, and Southeast and Central Asia, and are similar in egg morphology.
Coprological methods continue to be the most widely used approach for the detection and
quantification of Fasciola and other helminth eggs in laboratory animals, domestic and
sylvatic animals and humans Cringoli et al. (2004, 2010); Bergquist et al. (2009), with a more
recently developed method that is currently undergoing broad-scale validation the FLOTAC
techniques Cringoli et al. (2010) for the detection and quantification of F. hepatica eggs in
feces obtained from experimentally-infected rats before and after drug administration.
FLOTAC has been used successfully in the diagnosis of F. hepatica infections in naturallyinfected
sheep, which underwent treatment with standard Cringoli et al. (2006). However
PCR based diagnosis using specie-specific primers has been proved more accurate and
successful in diagnosis and distinction of Fasciola species Le TH et al. (2012). The molecular
technique such as PCR is used for the recognition of parasite. These molecular techniques are
largely accepted all over the world. These are more exact methods than traditional in
epidemiological studies Heckeroth and Tenter et al. (1999).
Herbal drugs have been used since ancient times to cure diseases and medicinal plants
have been used to treat fasciolosis among these Nigella sativa and Allium sativum have been
used to treat the worm infestation. No report of resistance development to plant anthelmintic
although many have been used in veterinary medicine for many years Ashaal et al. (2010);
Introduction
5
Waller et al. (1995); Koko et al.(2000); Thienpont et al. (1979); Keiser et al. (2011). Herbal
(indigenous) drugs have been used since ancient times to cure diseases, and several medicinal
plants have been used to treat fasciolosis Satyavati et al. (1987). Among these, Nigella sativa
has been used to treat worm infestation Nadkrani et al. (1954; Said et al. (1969); Akhtar et al.
(1988). N. sativa can be used as a therapeutic agent against helminthes Khan et al. (2013).
Neem leaf powder can be used as therapeutic agent against gastrointestinal parasites of
camel, equine, cattle, buffalo and small ruminants Mehmood et al. (2013). Garlic powder can
also be used as herbal product against the gastrointestinal helminthes of livestock Ijaz et al.
(2008). Availability: Items available for loan: UVAS Library [Call number: 2256-T] (1).
