Immune response to an alum precipitated haemorrhagic septicaemia vaccine in buffaloes at a semiorganized farm of Madhya Pradesh in India

Haemorrhagic septicaemia HS is one of the economically most important bacterial diseases of large ruminants. In the present investigation, a total of 156 buffaloes Murrah, Jafarabadi, and Bhadawari breeds at a semiorganized farm after administration of HS alum precipitated killed vaccine were screened serologically for the presence of anti-HS antibodies by single dilution indirect enzyme linked immunosorbent assay iELISA . Out of 156 buffaloes tested for presence of anti-HS antibodies, a greater proportion of buffalo 67.94% had protective level of anti-HS antibodies even after 90th day post vaccination.

___

  • 1. The Center for Food Security and Public Health. Hemorrhagic septicemia. Ames, IA, USA: Iowa State University, College of Veterinary Medicine; 2009.
  • 2. Karunasree P. A brief study on hemorrhagic septicemia. Research & Reviews: Journal of Veterinary Sciences 2016; 2 (2): 30-37.
  • 3. Charan S, Batra SK. Prerequisites for the control of infectious diseases with special reference to hemorrhagic septicemia in bovine. In: Sharma R, Kakker NK (editors.) Course Compendium: Control of Infectious Diseases in Animals With Particular Emphasis on FMD Control Programme. Hisar, India: ICAR Center for Advanced Faculty Training, Department of Veterinary Microbiology, College of Veterinary Sciences, Lala Lajpat Rai University of Veterinary and Animal Sciences; 2012. pp. 80-86.
  • 4. Khan A, Saleemi MK, Khan MZ, Gul ST, Irfan M et al. Hemorrhagic Septicemia in buffalo (Bubalus bubalis) calves under subtropical conditions in Pakistan. Pakistan Journal of Zoology 2011; 43 (2): 295-302.
  • 5. Islam MR, Sharma B, Dem P, Pattnaik B, Jha VC et al. Economic impact of TADs in India. In: Siddiky MNA (editor). Economic Impact of Transboundary Animal Diseases in SAARC Countries. Dhaka, Bangladesh: SAARC Agriculture Centre; 2013. pp. 37-38.
  • 6. Pal R, Kumar S, Bardhan D, Goyal J, Anandasekaran G et al. Quantifying morbidity and mortality losses in bovine due to Haemorrhagic Septicemia (HS) in Haryana. The Pharma Innovation Journal 2018; 7 (7): 802-806.
  • 7. Qureshi S, Saxena HM. Estimation of titers of antibody against Pasteurella multocida in cattle vaccinated with haemorrhagic septicemia alum precipitated vaccine. Veterinary World 2014; 7 (4): 224-228.
  • 8. Madhya Pradesh State. Agricultural Portal. New Delhi, India: Government of India; 2012.
  • 9. Kim TH, Johnstone J, Loeb M. Vaccine herd effect. Scandinavian Journal of Infectious Diseases 2011; 43 (9): 683-689.
  • 10. Fine P, Eames, K, Heymann DL. Herd immunity: a rough guide. Clinical Infectious Diseases 2011; 52 (7): 911-916.
  • 11. Shivachandra S, Viswas K, Kumar A. A review of hemorrhagic septicemia in cattle and buffalo. Animal Health Review 2011
  • 12 (1): 67-82. 12. Haidari H. Dynamics of livestock sector in Madhya Pradeshan economic analysis. MSc, Jawaharlal Nehru Krishi Vishwa Vidyalaya, India, 2016.
  • 13. Benkirane A, De Alwis MCL. Haemorrhagic septicemia, its significance, prevention and control in Asia. Veterinary Medicine-Czech 2002; 47 (8): 234-240.
  • 14. Lubroth J, Rweyemamu MM, Viljoen G, Diallo A, Dungu B, et al. Veterinary vaccines and their use in developing countries. Revue Scientifique Et Technique Office International Des Epizooties 2007; 26 (1): 179-201.
  • 15. Maslog FS. Immunity provided by haemorrhagic septicemiasubunit vaccine in ruminants. Developments in Biological Standardization 1998; 9 : 301-307.
  • 16. Verma R, Jaiswal TN. Haemorrhagic septicaemia vaccines. Vaccine 1998; 16 : 1184-1192.
  • 17. Kharb S. Development of ELISA techniques for haemorrhagic septicemia. International Journal of Bioassays 2015; 4 (11): 4574-4577.
  • 18. De Alwis MCL. Haemorrhagic Septicaemia Monograph No 57. Canberra, Australia: Australian Centre for International Agricultural Research; 1999.
  • 19. Sarwar N, Mohammad K, Rabbani M, Rana MY, Sarwar M et al. Factors affecting potency of hemorrhagic septicemia vaccine. International Journal of Agriculture & Biology 2015; 17: 387-390.
  • 20. Saleem L, Munir R, Ferrari G, Afzal M, Chaudhry R. Efficiency and cross- protectivity of live intranasal aerosol hemorrhagic septicemia vaccine in buffalo calves. International Journal of Current Microbiology & Applied Sciences 2014; 3 (11): 300- 307.
  • 21. Tanwar H, Yadav AP, Bhushan B, Shweta J, Singh SB et al. Immunity against Pasteurella multocida in animals vaccinated with inactivated Pasteurella multocida and herbal adjuvant ‘DIP-HIP’. Journal of Vaccines & Immunology 2016; 2 (1): 10- 1.
  • 22. Gowrakkal M, Chandrashekar M, Bhajantri S, Satav J, Chandakala GC et al. Evaluation of immuno efficiency of hemorrhagic septicaemia vaccine strain (vaccine seed). Asian Pacific Journal of Tropical Biomedicine 2014; 4 (1): S263-S267.
  • 23. Khan A, Saddique U, Ahmad R, Khan H, Mohammad Y et al. Sero-surveillance of hemorrhagic septicemia in cattle and buffaloes in district Malakand, NFWP. Journal of Agricultural & Biological Science 2006; 1 (4): 11-14.
  • 24. Prince K, Khan MS, Ijaz M, Anjum AA, Prince A et al. Effect of vitamin E and selenium supplementation on antibody titer against to hemorrhagic septicemia vaccine in buffalo calves. International Journal of Veterinary Science 2017; 6: 26-30.
  • 25. Singla LD, Juyal PD, Sharma NS. Immune responses to haemorrhagic septicemia (HS) vaccination in Trypanosoma evansi infected buffalo-calves. Tropical Animal Health & Production 2010; 42 (4): 589-595.
  • 26. Elshemey TM, Abd-Elrahman AH. Hemorrhagic septicemia outbreak as a consequence to SAT2 FMD infection in buffalo and cattle in Alexandria Province, Egypt. Life Science Journal 2013; 10 (2): 816-822.
  • 27. Altaf I, Siddique M, Muhammad K, Irshad M, Khan MZ et al. Antibody response of rabbits to combined hemorrhagic septicemia and foot-and-mouth disease virus vaccine. The Journal of Animal & Plant Sciences 2012; 22 (2): 501-504.
Turkish Journal of Veterinary and Animal Sciences-Cover
  • ISSN: 1300-0128
  • Yayın Aralığı: Yılda 6 Sayı
  • Yayıncı: TÜBİTAK
Sayıdaki Diğer Makaleler

Xıaohuı ZHANG, Mıao ZHANG, Endong BAO

Estimation of genetic parameters for weaning weight of Awassi lambs by using classical and Bayesian methods

Sinan BAŞ, Adile TATLIYER

The effects of supplemental niacin and methionine on serum glucose, betahydroxybutyric acid, and non-esterified fatty acid levels during late gestation and early postpartum period in Damascus dairy goats

Umair AHSAN, Serkan İrfan KÖSE, Ayşe Merve KÖSE, Bülent ÖZSOY, Ece KOLDAŞ ÜRER, Gökhan DOĞRUER, Mustafa Kemal SARIBAY

Salivary cortisol levels in horses and their junior riders during show jumping

Anna CYWINSKA, Iwona JANCZAREK, Slawomir PIETRZAK, Tomasz PROCHNIAK, Katarzyna STRZELEC, Andrzej BEREZNOWSKI

Changes in serum biochemical and lipid profile, and fatty acid composition of breast meat of broiler chickens fed supplemental grape seed extract

Akın YAKAN, Tarkan ŞAHİN, Özlem KARADAĞOĞLU, Mükremin ÖLMEZ, Bülent ÖZSOY

Expression profiles of lincRNA and mRNA related to milk yield and milk composition traits in the milk-derived exosomes of Holstein and Doğu Anadolu Kırmızısı cows

Selçuk ÖZDEMİR, Muhammed Hüdai ÇULHA, Ömer ELTAS

Jutapoln SUNGHAN, Nattakarn KHANTAPRAB

Katarzyna STRZELEC, Slawomır PIETRZAK, Tomasz PRÓCHNIAK, Iwona JANCZAREK, Anna CYWINSKA, Andrzej BEREZNOWSKI

Marcos Paulo Gonçalves De REZENDE, Paulo Luız Souza CARNEIRO, Johnny Iglesıas Mendes ARAUJO, André Campêlo ARAUJO, Barbara Machado CAMPOS, Rıccardo MORETTI, Leonardo Gomes SITORSKY, Wéverton José Lıma FONSECA, Rıccardo BOZZI, Carlos Henrıque Mendes MALHADO

DMEM and FBS as thawing solutions for frozen semen of pigs can improve sperm motility and sow reproductive performance

Ziming WANG, Fushuo HUANG, He HUANG, Peng ZHENG, Mingjun MA, Xiaoyu LI