한국동물위생학회지 (Korean Journal of Veterinary Service)

  • 제32권3호
  • /
  • Pages.201-207
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  • 2009
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  • 3022-7372(pISSN)
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  • 2287-7630(eISSN)
한국동물위생학회 (The Korean Society of Veterinary Service)
권호 표지

돼지유행성설사병(PEDV) 생독과 사독백신의 면역형성 비교연구

A comparative study on immunogenicity of the porcine epidemic diarrhea virus live-vaccine and inactivated-vaccine

  • 권미순 (전라북도축산위생연구소 남원지소) ;
  • 조현웅 (전라북도축산위생연구소 남원지소) ;
  • 이은미 (전라북도축산위생연구소 남원지소) ;
  • 이지영 (전라북도축산위생연구소 남원지소) ;
  • 서형석 (전라북도축산위생연구소 남원지소) ;
  • 임정철 (전라북도축산위생연구소 남원지소) ;
  • 허부홍 (전라북도축산위생연구소 남원지소)
  • Kwon, Mee-Soon (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research) ;
  • Cho, Hyun-Ung (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research) ;
  • Lee, Eun-Mi (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research) ;
  • Lee, Ji-Yoog (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research) ;
  • Seo, Heyng-Seok (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research) ;
  • Im, Jeong-Cheol (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research) ;
  • Hur, Boo-Hong (Namwon-Brench Jeonbuk Institute of Livestock & Veterinary Research)
  • 발행 : 2009.09.30
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초록

Porcine transmissible gastroenteritis virus (TGEV), porcine epidemic diarrhea virus (PEDV) and rotaviruses are considered as the most important causative agents of diarrhea in piglets. The study established 3 method vaccination programs to prevent PEDV. A (LL)group inoculated twice vaccinations on 2-weeks-interval during the late term of pregnant sows with PEDV live vaccine. The B (LKK) group was applied that one time single PEDV live vaccine at the pre-mate followed by the TGEV PEDV combined inactivated vaccine (twice vaccination on 2-weeks interval at the third-trimester). C (KK) group was applied to sow which inoculated twice vaccination on 2-weeks-interval during the late term of pregnant sows with by the TGEV, PEDV combined inactivated vaccine. As the result of SN test on sows in the pig farm before vaccination, antibody titers was showed 9/45 (20.0%). By comparison with the serum neutralizing antibody titers against PEDV of the vaccination programs after PEDV of the vaccination, A group and B group vaccination method was higher than those of C group in sows. In the piglets up to 2 weeks of age, A group was showed antibody titers of 17/22 (81.8%) that showed 2-128, and B group was showed antibody titers of 30/37 (81.1%) that showed 2-512, and C group was showed antibody titers of 14/28 (50.0%) that showed 2-32. On the other hand, PEDV antibody titers were tested for the survey. As the results of SN test, Aujeszky's disease survey in 54 pig farms from november 2005 to august 2006, antibody titers of 47/286 (16.4%) showed above 2. Five breeding farms were antibody titers of 38/77 (49.4%), Wanggung zone farms antibody titers of 59/85 (69.4%). In pigs farms vaccinated the first of twice PEDV live vaccine, and after 6 month, the second of twice TGEV PEDV combined inactivated vaccine (LLKK, 256-1024 titer) method was higher than those of vaccinated twice the early term of pregnant, and twice the late term of pregnant sows of PEDV live vaccine (LLLL, 32 titer).

키워드

참고문헌

  1. 강영배, 권창희, 권병준, 이재길, 어중원. 1995. 돼지유행성설사(Porcine epidemic diarrhea) 발생 피해, 병리진단 및 방역대책. 대한수의사회지 31: 38-56
  2. 권창희, 권병준, 정채성. 정태성, 기영진, 허동호, 황의경, 이재진, 안수환. 1993. 돼지 유행성 설사바이러스.(porcine epidemic diarrhea virus) 의 극내분리주 작성에 관한 연구. 대한수의학회지 33(2): 249-254
  3. 박남용, 조경오, 조성수, 하용공. 1993. 돼지유행성 설사바이러스의 분리동정. 대한수의사회지 29(6): 360-365
  4. 박남용, 이석윤. 1997. In situ hybridization에 의한 돼지유행성 설사증의 국내발생 역추적 진단. 대한수의학회지 37(4): 809-816
  5. 지영철, 한정희, 권혁무, 정현규, 이함희 .2002. 항혈청 투여에 따른 유행성 설사병 예방효과 I. 혈청학적검사, RT-PCR검사, 형광항체검사. 한국수의병리학회지 6(1): 19-26
  6. 탁동섭, 김성희, 권준헌, 양동군, 배유찬, 김병한, 조수동.2004. 돼지전염성위장염, 유행성설사, 로타바이러스감염증 3종 혼합생백신 개발. 수의과학기술개발연구사업 연구과제 최종보고서. 건양기획: 681-703
  7. Bohl, EH, Frederick GT, Saif LJ. 1975. Passive Immunity in transmissible gastroenteritis of swine : Intramuscula injection of pregnant swine with a modified Iive-virus vaccine. Am J Vet Res 36(3): 267-271
  8. Bohl EH, Kumagai T. 1965. The use of cell culture for study of swine. Proc US Livest Sanit Assoc 69: 343-350
  9. Duarte M, Tobler K, Bridgin A, Rasschaert D, Ackermann M, Laude H. 1994. Sequence analysis of the porcine epidemic diarrhea virus genome between the nucleocapsid and spike protein genes reveals polymorphic OFR. Virology 198(2): 466-476 https://doi.org/10.1006/viro.1994.1058
  10. Egberink H, Ederveen J, Callebaut P, Horzinek MC. 1988. Characterization of the structural protein of porcine epidemic diarrhea virus. strain CV777. Am J Vet Res 49(8): 1320-1324
  11. Hofmann M, Wyler R. 1988. Propagation of the virus of porcine epidemic diarrhea in cell culture. J Cli MicrobioI 26(11): 2235-2239
  12. Kim O , Choi B, Kim B. Chae C. 2000. Detection an differentiation of porcinε epidemic diarrhea virus and transmissible gastroenteritis virus in clinical samples by multiplex RT-PCR. Vet Rec 146(22): 637-640 https://doi.org/10.1136/vr.146.22.637
  13. Kusanagi K, Kuwahara H, Katoh T, Nunoya T, Ishikawa Y, Samejima T, Tajima M. 1992. Isolation and serial propagation of porcìne epidemic diarrhea virus in cell cultures and partial characterization of the isolation. J Vet Med Sci 54(2): 313-318 https://doi.org/10.1292/jvms.54.313
  14. Lanza I, Shoup DI, Saif LJ. 1995. Lactogenic immunity and milk antibody serotypes to transmissible gastroenteritis virus in sows exposed to porcine respiratory coronavirus during pregnancy. Am J Vet Res 56(6): 739-748
  15. Saif LJ. 1993. Coronavirus immunogens. Vet Microbiol 37(3-4): 285-297 https://doi.org/10.1016/0378-1135(93)90030-B
  16. Shokley LJ, Kapke PA, Lapps W, Brian DA, Potgieter LN, Woods R. 1987. Diagnosis of porcine and bovine enteric coronavirus infection using cloned cDNA probes. J Clin MicrobioI 25(9): 1592-1596
  17. Straw BE, Zimmerman JJ, D' Allaire S, Taylor DJ. 2006. Porcine epidemic diarrhea. Disease of swine 9 eds. Iowa State Univ Press. Ames, Iowa: 367-372