우리나라 돼지콜레라 항체 수준 측정을 위한 표본감사의 통계학적 기준 설정

Establishment of a statistically reliable sampling method and size for serological surveillance of classical swine fever (CSF) in Korea

  • 심사 : 2007.03.14
  • 발행 : 2007.03.30

초록

To establish a statistically reliable sampling strategy for serological surveillance of classical swinefever (CSF) in Korea, antibody test data from CSF surveillance conducted during year 2005 were analyzed.The most appropriate sampling method was determined to be stratified multi-stage random sampling strategy,in which the primary sampling unit is a pig farm and the secondary are the pigs by the strata of breedersand finishers in the selected farm. The optimum sample size was 5 to 19 including 1 to 2 breeders accordingto the number of pigs in the farm. The optimum sampling strategy demonstrated in this study was veryFindings of our study provide practical guidelines for surveillance of herd immunity level to CSF in Korea.

키워드

참고문헌

  1. 농림부. 가축전염병 발생월보. 2006
  2. 농림부. 국립농산물품질관리원 농업통계정보 가축통계. 2006
  3. 농림부. 국립수의과학검역원 가축전염병대응시스템. 2006
  4. 농림부. 돼지콜레라 방역실시요령. 농림부 고시 제 2003-44호. 2006
  5. 농림부. 2006년 가축방역계획 및 실시요령. 2006
  6. 박최규, 송재영, 위성환, 이은섭, 윤하정, 문운경, 최은진, 남향미. 2002년 한국에서 발생한 돼지콜레라의 역학적 특성. 대한수의학회지 2006, 46, 107-117
  7. 박최규, 이은섭, 윤하정, 위성환, 송재영, 문운경, 최은진, 김현수, 이주호, 안수환. 2003년 한국의 돼지콜레라 전국적 확산에 대한 기술역학. 대한수의학회지 2006, 46, 197-206
  8. Cameron A, Gardner I, Doherr MG, Wagner B. Sampling considerations in surveys and monitoring and surveillance systems. In: Salman MD (ed.). Animal Disease Surveillance and Survey Systems: Methods and Applications. pp. 47-66, Iowa State Press, Ames, 2003
  9. Crauwels APP, Nielen M, Stegeman JA, Elbers ARW, Dijkhuizen AA, Tielen MJM. The effectiveness of routine serological surveillance: case study of the 1997 epidemic of classical swine fever in The Netherlands. Rev Sci Tech 1999, 18, 627-637 https://doi.org/10.20506/rst.18.3.1193
  10. Dohoo I, Martin W, Stryhn H. Sampling. In: Veterinary Epidemiologic Research. pp. 27-52, University of Prince Edward Island, Charlottetwon, 2003
  11. Elbers ARW, Stegeman JA, de Jong MF, Lambers JH, de Koning R, Hunneman WA. Estimating sample sizes for a two-stage sampling survey of seroprevalence of pseudorabies virus (PRV)-infected swine at a regional level in The Netherlands. Vet Q 1995, 17, 92-95 https://doi.org/10.1080/01652176.1995.9694540
  12. Farver TB, Thomas C, Edson RK. An application of sampling theory in animal disease prevalence survey design. Prev Vet Med 1985, 3, 463-473 https://doi.org/10.1016/0167-5877(85)90007-8
  13. Greiser-Wilke I, Fritzemeier J, Koenen F, Vanderhallen H, Rutili D, De Mia GM, Romero L, Rosell R, Sanchez-Vizcaino JM, San Gabriel A. Molecular epidemiology of a large classical swine fever epidemic in the European Union in 1997–1998. Vet Microbiol 2000, 77, 17-27 https://doi.org/10.1016/S0378-1135(00)00253-4
  14. Laevens H, Koenen F, Deluyker H, Berkvens D, de Kruif A. An experimental infection with classical swine fever virus in weaner pigs. I. Transmission of the virus, course of the disease, and antibody response. Vet Q 1998, 20, 41-45
  15. Laevens H, Koenen F, Deluyker H, de Kruif A. Experimental infection of slaughter pigs with classical swine fever virus: transmission of the virus, course of the disease and antibody response. Vet Rec 1999, 145, 243-248 https://doi.org/10.1136/vr.145.9.243
  16. Stegeman A, Elbers ARW, Bouma A, de Smit H, de Jong MCM. Transmission of classical swine fever virus within herds during the 1997-1998 epidemic in The Netherlands. Prev Vet Med 1999, 42, 201-218 https://doi.org/10.1016/S0167-5877(99)00076-8
  17. Thrusfield M. Veterinary Epidemiology. 3rd ed. pp. 46-74, Blackwell Science, Oxford, 2005
  18. Wee SH, Park CK, Jeong JM, Kim CH, Hwang IJ, Kim SJ, Yoon H, Lee ES, Nam HM, Park JY, Moon OK. Outbreaks of classical swine fever in the Republic of Korea in 2003. Vet Rec 2005, 157, 113-115 https://doi.org/10.1136/vr.157.4.113