Assessment of the immunity gap of two vaccination programs against Gumboro disease in Luong Phuong chicken

Huỳnh Thị Hương Lan , Nguyễn Linh Thanh Trúc , Nguyễn Minh Hồ & Quách Tuyết Anh *

* Correspondence: Quách Tuyết Anh (email: anh.quachtuyet@hcmuaf.edu.vn)

Article Sidebar

PDF
Ngày nhận: 30-08-2024
Ngày chỉnh sửa: 24-09-2024
Ngày chấp nhận: 04-10-2024
Ngày xuất bản: 06-12-2024
DOI: 10.52997/jad.SI1.06.2024
Lượt xem
0
Lượt tải về
0
Crossref
Scopus
Google Scholar
Europe PMC
Trích dẫn
Huỳnh, L. T. H., Nguyễn, T. L. T., Nguyễn, H. M., & Quách, A. T. (2024). Assessment of the immunity gap of two vaccination programs against Gumboro disease in Luong Phuong chicken. Tạp Chí Nông nghiệp Và Phát triển 23(Special Issues 1), 63-73.
Số tạp chí
Tập 23 - Số Special Issues 1 (2024)
Chuyên mục
JAD: Animal Sciences, Veterinary Medicine, Aquaculture and Fisheries

Main Article Content

Tóm tắt

Maternal-derived antibody (MDA) is the priority protection against environmental Infectious Bursal Disease Virus (IBDV) in the first weeks. The passive immunity decreases, but the active immunity is not enough to protect chicks, so shortening the high-risk period is crucial to IBD control. The objective of this study was to evaluate the immunity gap between 2 vaccination programs against infectious bursal disease (IBD) in Luong Phuong chickens. A total of 34,600 chicks were administered by subcutaneous injection of IBD vaccine at 0.1 mL/dose at the hatchery. At 12 days old, 18,000 chicks were vaccinated with the M.B strain vaccine and 16,600 chicks were vaccinated with the 228E strain vaccine by drinking water. The IBD and Newcastle disease (ND) antibody evaluations were based on the Enzyme-linked immunosorbent assay (ELISA) technique. Parameters were recorded until slaughter including body weight, average daily gain, feed conversion rate, and mortality. The IBD MDA at 1 day old was medium and uniform (3809 and 45.3%), which could protect against IBD virus from 1 to 2 weeks old. At 28 days old, the IBD antibody titer of the MB vaccine was higher than that of the 228E vaccine, various proportions of samples in the M.B group exceeding 1,000 titers (40% vs. 0%), and it was a statistically significant difference (1,133 vs. 161) (P < 0.01). Besides, the M.B vaccine created a faster and stronger immune response than the 228E vaccine, shortening the immune gap and protecting chicks earlier. The humoral immune response to the ND vaccine was good, with no difference between 2 groups, which proved that the M.B virus did not cause immunosuppression. The production parameters of chickens between the 2 groups were the same. In summary, the M.B vaccine made a short immune gap and did not cause immunodeficiency in chickens.

Article Details

Tài liệu tham khảo

Ahmed, Z., & Akhter, S. (2003). Role of maternal antibodies in protection against infectious bursal disease in commercial broilers. International Journal of Poultry Science 2(4), 251-255. https://doi.org/10.3923/ijps.2003.251.255.

Berg, T. P. (2000). Acute infectious bursal disease in poultry: A review. Avian Pathology 29(3), 175-194. https://doi.org/10.1080/03079450050045431.

Courtillon, C., Allee, C., Amelot, M., Keita, A., Bougeard, S., Hartle, S., Rouby, J., Eterradossi, N., & Soubies, S. M. (2022). Blood B cell depletion reflects immunosuppression induced by live-attenuated infectious bursal disease vaccines. Frontiers in Veterinary Science 9, 1-10. https://doi.org/10.3389/fvets.2022.871549.

Dahshan, A. M., & Hussien, A. S (2011). The prevalence of subclinical infectious bursal disease in commercial broiler flocks. Assiut Veterinary Medical Journal 57(131), 1-12. https://doi.org/10.21608/avmj.2011.176947.

De Wit, J. J. (2001). Gumboro disease: Estimation of optimal time of vaccination by the Deventer formula. Annual Report and Proceedings of COST Action 839: Immunosuppressive Viral Diseases in Poultry (170-178). Deventer, the Netherlands: Animal Health Service.

Dey, S., Pathak, D. C., Ramamurthy, N., Maity, H. K., & Chellappa, M. M. (2019). Infectious bursal disease virus in chickens: Prevalence, impact, and management strategies. Veterinary Medicine: Research and Reports 10, 85-97. https://doi.org/10.2147/VMRR.S185159.

Farooq, M., Durrani, F. R., Imran, N., Durrani, Z., & Chand, N. (2003). Prevalence and economic losses due to infectious bursal disease in broilers in Mirpur and Koti districts of Kashmir. International Journal of Poultry Science 2(4), 267-270. https://doi.org/10.3923/ijps.2003.267.270.

Kreider, D. L., Skeeles, J. K., Parsley, M., Newberry, L. A., & Story, J. D. (1991). Variability in a commercially available enzyme-linked immunosorbent assay system. І. Assay variability. Avian Diseases 35(2), 276-287.

IDL (IDEXX Laboratories). (2015). IDEXX interpret titer. Retrieved June 16, 2023, from https://learn.idexx.com/learn.

Ingrao, F., Rauw, F., Lambrecht, B., & Berg, T. V. D. (2013). Infectious bursal disease: a complex host-pathogen interaction. Developmental and Comparative Immunology 41(3), 429-438. https://doi.org/10.1016/j.dci.2013.03.017.

Islam, M. T., & Samad, M. A. (2004). Clinicopathological studies on natural and experimental infectious bursal disease in broiler chickens. Bangladesh Journal of Veterinary Medicine 2(1), 31-35. http://dx.doi.org/10.3329/bjvm.v2i1.1931.

Jayasundara, J. M. K. G. K., Walkden-Brown, S. W., Katz, M. E., Islam, A. F. M. F., Renz, K. G., McNally, J., & Hunt, P. W. (2017). Pathogenicity, tissue distribution, shedding and environmental. detection of two strains of IBDV following infection of chickens at 0 and 14 days of age. Avian Pathology 46(3), 242-255. https://doi.org/10.1080/03079457.2016.1248898.

Lazarus, D., Pasmanik-Chor, M., Gutter, B., Gallili, G., Barbakov, M., Krispel, S., & Pitcovski, J. (2009). Attenuation of very virulent infectious bursal disease virus and comparison of full sequences of virulent and attenuated strains. Avian Pathology 37(2), 151-159. https://doi.org/10.1080/03079450801910206.

Lemiere, S. (2013). The cost benefits of vaccination in poultry production. International Poultry Production 21(4), 19-21.

Nguyen, H. M., Quach, A. T., Le, A. T. T., & Le, H. T. (2018). Field assessment of the efficacy of M.B., LIBDV and Winterfield 2512 strain vaccines against infectious bursal disease in chickens. The Journal of Agriculture and Development 17(6), 15-23. https://doi.org/10.52997/jad.3.06.2018.

Nguyen, O. T. K., Nguyen, H. M., Nguyen, D. V., & Quach, A. T. (2022). A field study on the evaluation of safety and effectiveness of the attenuated Infectious Bursal disease vaccine when applied to day-old chicks at the hatchery. The Journal of Agriculture and Development 21(2), 25-34. https://doi.org/10.52997/jad.4.02.2022.

Rautenschlein, S., Kraemer, K., Vanmarcke, J., & Montiel, E. (2005). Protective efficacy of intermediate and intermediate plus infectious bursal disease virus (IBDV) vaccines against very virulent IBDV in commercial broilers. Avian Diseases 49(2), 231-237. https://doi.org/10.1637/7310-112204r.

Smith, D. R. (2019). Herd immunity. Veterinary Clinics of North America: Food Animal Practice 35(3), 593–604. https://doi.org/10.1016/j.cvfa.2019.07.001.

Xu, Y. Z., Yu, Y., Fu, X. S., Li, B. B., Liu, L., Wang, L., Wang, X. Q., & Ma, Y. J. (2024). The effect of ghrelin on bursa and cecal tonsils of chickens infected with an attenuated virus strain of infectious bursal disease virus. Poultry Science 103(5), 1-10. https://doi.org/10.1016/j.psj.2024.103547.