PENGARUH PEMBERIAN Saccharomyces cerevisiae DAN Lactobacillus bulgaricus TERHADAP TITER ANTIBODI DAN PERTUMBUHAN PASCA VAKSINASI HOG CHOLERA PADA BABI
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Keywords

Classical swine fever
Growth
Hog cholera
Probiotic
Vaccination

How to Cite

Welndy, N. I., Sanam, M. U. E., & Simarmata, Y. T. R. M. R. (2020). PENGARUH PEMBERIAN Saccharomyces cerevisiae DAN Lactobacillus bulgaricus TERHADAP TITER ANTIBODI DAN PERTUMBUHAN PASCA VAKSINASI HOG CHOLERA PADA BABI. Jurnal Veteriner Nusantara, 3(2), 161-167. Retrieved from https://ejurnal.undana.ac.id/index.php/jvn/article/view/3423

Abstract

Classical Swine Fever (CSF) or hog cholera caused by classical swine fever virus (CSFV) is an important infectious disease in domestic pigs and wild pigs because this disease has a high mortality and morbidity rate in susceptible livestock. One effective way to prevent the spread of hog cholera is to vaccinate at the age of 30 days or 43 days, which is the weaning age of pigs. Weaning age is a critical time in a production system because of disturbances in nutrition, the immune system and the physiological system. A probiotic diet such as Saccharomyces cerevisiae and Lactobacillus bulgaricus was done to minimize losses. This study aims to determine the response of antibody titres to hog cholera vaccination and to determine the growth rate of body weight among pigs after giving S. cerevisiae and L. bulgaricus as additional feed. The research sample of 27 pigs aged one month were divided into three groups, namely group A without giving probiotics as control, group B for pigs with S. cerevisiae yeast flour (50mg / kgBB) and group C for pigs with L fermentation. . bulgaricus (3ml / kgBW). Serum samples for ELISA test were collected on day 0 and day 21 after vaccination. There was no significant difference (P> 0.05) in the antibody response before and after vaccination between S. cerevisiae and L. bulgaricus supplemental feeding due to high maternal antibodies. Body weight growth after giving S. cerevisiae yeast flour showed a significant difference (P<0.05) at day 0 to day 14 and day 14 to day 28 but did not show a significant difference (P > 0.05).

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References

Australian Veterinary Emergency Plan. 2012. Disease Strategy Classical Swine Fever. Australia
Dowarah, R., Verma, A.K., Agarwal, N. 2017. The use of Lactobacillus as an alternative of antibiotic growth promoters in pigs: A review. Animal Nutrition 3 (2017) 1-6
Durand, F.C., Durand, H. 2010. Probiotics in animal nutrition and health. Beneficial Microbes, 2010; 1(1): 3-9
Ensminger, M.E. 1991. Animal Science. 9th Edition. The Interstate Printers. And Publisher. Inc. Denville, Illionis.
Freitas, T.R.P., Caldas, L.A., Esteves, E.G., Duarte, A.C.S., Rebello, M.A. 2009. Classical Swine Fever: humoral neutralizing antibody induced by a live attenuated vaccine. Revue de Médecine Vétérinaire., 2009, 160, 6, 314-318
Giang, Hoang Huong. 2010. Impact of bacteria and yeast with probiotic properties on performance, digestibility, health status and Gut environtment of growing pigs in vietnam. Doctoral Thesis Faculty of Veterinary Medicine and Animal Science Department of Animal Nutrition and Management Uppsala, Swedish University of Agricultural Sciences.
Hasselquist, Dennis dan Nillson, Jan-Ake. 2008. Maternal transfer of antibodies in vertebrates: trans-generational effects on offspring immunity. Philosophical Transaction of Royal Society B (2009) 364, 51–60
Lessard, M. & Brisson, G.J. 1987. Effect of A Lactobacillus Product on Growth, Immune Response and Fecal Enzyme Activity in Weaned Pigs. Canadian Journal of Animal Science 67: 509-516
Patil, A.K., Kumar, S., Verma, A.K., Baghel, R.P.S. 2015. Probiotics as feed additives in weaned pigs: A review. Livestock Research Internasional, April-June, 2015, Vol 3 Issue 2 Pages 31-39
van Oirschot, J. T. 2003. Vaccinology of classical swine fever: from lab to field. Veterinary Microbiology 96 (2003) 367–384
Vandeputte, J., Too, H.L., Fook, K., Chen, C., Chai, K.K., Liao, G.A., 2001. Adsorption of colostral antibodies against classical swine fever, persistence of maternal antibodies, and effect on response to vaccination in baby pigs. Am. J. Vet. Res. 62, 1805–1811. Ensminger, M.E. 1991. Animal Science. 9th Edition. The Interstate Printers. And Publisher. Inc. Denville, Illionis.
Wang, Z., Guo, Y., Yuan, J., Zang, B. 2008. Effect of Dietary β-1,3/1,6-glucan Supplementation on Growth Performance, Immune Response and Plasma Prostaglandin E2, Growth Hormone and Ghrelin in Weanling Piglets. Asian-Aust. J. Anim. Sci. 21(5):707-714,
Yang, F., Hou, C., Zeng, X., Qiao, S. 2015. The use of lactid acid bacteria as a probiotic in swine diets. Pathogens 2015, 4, 34-45; doi:10.3390/pathogens4010034
Zabriskie, J.B. 2008. Essential Clinical Immunology. Cambridge University Press. New York