Department of Veterinary Parasitology- Govind Ballabh Pant University Of Agriculture and Technology

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DEPARTMENT OF VETERINARY PARASITOLOGY

Faculty Members

Name	Designation	Qualifi- cations	Specialization	Contact No.	Email
Dr. Stuti Vatsya	Assoc. Prof. & Incharge	Ph.D.	Vety. Parasitology	05944-233051(O) 9412969022	stutivatsya[at]gmail[dot]com
Dr. Vidya Sagar Singh	Asstt. Prof.	Ph.D.	Vety. Parasitology	9410168987	singhvs65[at]gmail[dot]com
Dr. Rajeev Ranjan Kumar	Asstt. Prof.	M.V.Sc.	Vety. Parasitology	9457166680	rajeevpara[at]gmail[dot]com

Courses offered by the Department

B.V.Sc. & A.H. Courses

S. No.	Name of the Course	Course No.	Credit Hrs.
1.	General Veterinary Parasitology & Helminthology	VPA-211	4 (3+1)
2.	Veterinary Entomology & Acarology	VPA-221	2 (1+1)
3.	Veterinary Protozoology	VPA-222	3 (2+1)

M.V.Sc. Courses

S. No.	Name of the Course	Course No.	Credit Hrs.
1.	Master’s Seminar	VPA-600	1
2.	Special Problem	VPA-601	1-2
3.	Entomology & Acarology	VPA-603	3 (2+1)
4.	Veterinary Protozoology	VPA-604	3 (2+1)
5.	Parasitological Techniques	VPA-605	2 (0+2)
6.	Clinical Parasitology	VPA-606	2 (1+1)
7.	Trends in Control of Livestock and Poultry Parasites	VPA-607	2 (1+1)
8.	Immunoparasitology	VPA-608	3 (2+1)
9.	Parasitic Zoonoses	VPA-609	2 (2+0)
10.	Parasites of Zoo and Wild Animals	VPA-610	3 (2+1)
11.	Malacology	VPA-611	2 (1+1)
12.	Veterinary Helminthology I	VPA-612	3 (2+1)
13.	Veterinary Helminthology II	VPA-613	3 (2+1)
14.	Master Thesis Research	VPA-690	20

Ph.D. Courses

S. No.	Name of the Course	Course No.	Credit Hrs.
1	Special Problem	VPA-601	1-2
2.	Applications of Remote Sensing and Geographic Information System in Parasitology	VPA-701	3 (1+2)
3.	Molecular Diagnostics and Vaccine Development in Parasitology	VPA-702	3 (2+1)
4.	Host Parasite Interactions	VPA-703	2 (2+0)
5.	Advances in Protozoology	VPA-704	3 (2+1)
6.	Advances in Helminthology I	VPA-705	3 (2+1)
7.	Advances in Helminthology II	VPA-706	3 (2+1)
8.	Advances in Entomology & Acarology	VPA-707	3 (2+1)
9.	In-Vitro Cultivation of Parasites	VPA-708	3 (1+2)
10.	Emerging and Re-emerging Parasitic Diseases	VPA-709	2 (2+0)
11.	Bionomics of Parsites	VPA-710	3 (3+0)
12.	Environmental Parasitology	VPA-711	2 (1+1)
13.	Doctoral Seminar I	VPA-788	1
14.	Doctoral Seminar II	VPA-789	1
15.	Ph.D. Thesis Research	VPA-790	45

Research Projects in Operation

Name of the Project

Funding

Agency

Project

Leader

Co-PI

All India Network

Programme on GI Parasitism

ICAR

New Delhi

Dr. Stuti Vatsya

Dr. Rajeev Ranjan Kumar

Evaluation of Efficacy of Different Ecto-Parasiticidal Products

Parijat Industries

(India) Pvt. Ltd., New Delhi

Dr. Stuti Vatsya

Dr. Rajeev Ranjan Kumar

Research Highlights/Achievements:

1. Establishment of epidemiology of important parasitic diseases:-

· Prevalence of fasciolosis and amphistomosis was highest in tarai region followed by hills and plains, respectively. Buffaloes were the most susceptible hosts followed by cattle, sheep and goats. The incidence of F. gigantica infection was high in post-monsoon season (September- January), with peak in January in the tarai.

· Highest incidence of G.I. nematodosis was in goats followed by sheep, cattle and buffaloes. Haemonchus, Trichostrongylus, Bunostomum, Oesophagostomum and Strongyloides sp. were the main parasites recovered from intestines of sheep and goats. Incidence of strongylosis in equines was 78.95% with maximum prevalence in tarai region of Uttaranchal.

· Prevalence of Cysticercus tenuicollis was recorded in 34.94% and 24.19% sheep and goats of tarai region, respectively.

· Various species of Sarcocystis viz. S. fusiformis and S. levinei in buffaloes, S. miescheriana and S. suihominis in pigs, S. cruzi, S. hirsuta and S. hominis in cattle, S. capracanis and S. hircicanis in goats have been recorded. The overall prevalence was 73.72%, 67.98%, 87.03% and 73.33% in buffaloes, pigs, cattle and goats, respectively.

· Incidence of Theileria annulata in cattle and buffalo was 4.51% in Tarai of Kumaon hills. Parasite was more common in cattle than buffaloes and adult of both are more susceptible.

· The overall prevalence of common tick Boophilus microplus in cattle and buffaloes was 41.24 percent in Tarai region. Young animals and crossbred cattle were more susceptible to tick infestation as compared to adult and zebu cattle.

2. Pathogenesis of Sarcocystis tenella infection in experimentally infected sheep has been established.

3. Biochemical characterization of Sarcocystis suihominis and S. miescheriana has been done.

4. Migratory behaviour of Toxocara vitulorum in mice, rat, guinea pigs and monkeys has been established.

5. Standardization of immunodiagnostic tests for parasitic infections:

(a) Fasciolosis: Two major fractions of proteins, one comprising of low molecular weight proteins (10.0, 14.0, 19.0 kDa ) and the other containing medium molecular weight proteins (28.0, 35.0 kDa) Have been used for standardization of Dot-ELISA immunodiagnosis of fasciolosis in ruminants. Cross-reactivity between Fasciola gigantica and Paramphistomum epiclitum has also been established.

(b) Toxocarosis: Immunoreactive fractions of embryonated egg antigen of T. vitulorum were identified by SDS-PAGE and western blotting. The antigen was further used for standardization of IHA, CIEP and Dot-ELISA to detect dormant larvae in pregnant cows and buffaloes.

(c) Visceral larva migrans: Diagnosis of visceral larva migrans in monkeys caused by T. vitulorum larvae was accomplished by detecting antibodies in sera of experimentally infected monkey by DID and CIEP.

(d) Metacestode infections: Different immunodiagnostic tests viz. Oucterlony bidimensional immunodiffusion test, CIEP, IHA, Bentonite flocculation test, Fluorescent antibody test (FAT) and ELISA have been standardized using whole cyst, cyst fluid and scolex antigens of Cysticercus cellulose. FAT using whole cyst and cyst fluid antigens gave excellent results.

(e) Trypanosomosis: Passive haemagglutination test was standardized and found to be specific for trypanosomosis in buffaloes.

(f) Sarcocystosis: CIEP was found to be more sensitive than DID and IEP for diagnosis of S. capracanis when soluble antigen prepared from mature micro-sarcocysts was used. Similarly, CIEP was found most satisfactory for the purpose of diagnosis of S. cruzi and S. hirsuta than SRID, DID, IEP, RIEP and precipitin tests. However, ELISA using partially purified sarcocyst antigen was found to be the most sensitive and specific test for immunodiagnosis of infection in animals.

6. Treatment and control of parasitic infections:

(a) Trematode infections: Oxyclozanide (@10mg/kg) were highly effective for treatment of fasciolosis and amphistomosis in cattle. However, Triclabendazole (@25mg/kg) was highly effective for treating fasciolosis in buffaloes.

(b) Nematode infections: In equine strongylosis, Doramectin (@0.2 mg/kg) was the most effective drug. Ivermectin and Pyrental pamoate were also highly effective. The horses of six out of eight organized farm surveyed for benzimidazole resistance were found to harbour moderately to severly resistant strongyle population.

(c) Tick infestation: The in vivo trials with Dimecron, Malathion and Sevin in 1.0, 0.75 and 0.5 percent concentration was 100 percent effective against Boophilus tick. The efficacy of hydrodistilled extracts of Artemisia annua, A. vulgaris, Ocimum basilicum and Tagetes minuta was screened against B. microplus ticks and compared with some ready to use herbal preparations (Pestoban, Pestoonar and AV/EPP/14) and chemical acaricides (deltamethrin, fenvalerate). Higher concentrations of herbal extracts (1:10) were comparable in reducing in vitro mortality and biological functions of ticks.