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Detection of Antibodies to Classical Swine Fever Virus gp55 in Muscle Fluid  

Jung, Jae-yun (College of Veterinary Medicine, Kyungpook National University)
Jung, Byeong-yeal (National Veterinary Research & Quarantine Service)
Kim, Bong-hwan (College of Veterinary Medicine, Kyungpook National University)
Publication Information
Korean Journal of Veterinary Research / v.43, no.2, 2003 , pp. 263-270 More about this Journal
Abstract
The objective of the present study was to investigate the use of fluid released from muscle samples as an alternative to serum for ELISA to detect classical swine fever(CSF) virus antibodies in slaughter pigs. The optimal correspondence between serum 1:20 OD values and muscle fluid OD values was achieved at a muscle fluid dilution of 1:2. Significant correlation was found between serum and neck muscle ELISA ($r_s=0.880$, p<0.0001, ${\kappa}=0.82$; specificity of 97.0% and sensitivity 90.6%). The semimembranous muscle showed similar correlation in CSF ELISA($r_s=0.877$, p<0.0001, ${\kappa}=0.75$; specificity of 94.1% and sensitivity 89.1%). High correlation was obtained between serum and mesenteric lymph node in the CSF ELISA ($r_s=0.937$, p<0.0001, ${\kappa}=0.87$; specificity of 97.1% and sensitivity 93.0%). Measmement agreement between serum ELISA and muscle fluid ELISA was calculated and expressed as limits of agreement. The correspondence of ELISA of serum and muscle fluid indicated limits of agreement. Above 95% of all muscle fluid values were distributed within this limits of agreement. Among the samples used for ELISA for detecting CSFV antibodies, mesenteric lymph node had the most correlation and agreement with serum ELISA. F-test for comparison of variances showed no significant difference between the serum and muscle fluid. In conclusion, muscle fluid is a useful postmortem alternative to serum to detect CSFV antibodies.
Keywords
classical swine fever(CSF); hog cholera(HC); muscle fluid; ELISA;
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1 김봉환, 조광현, 박노찬, 권헌일. 대구근교에서 1996년에 발생한 돼지 콜레라의 역학적 특성. 대한수의학회지.1997, 33(9), 544-553
2 이동규. 돼지콜레라 바이러스의 외피당단백질을 추출 정제하는 방법. 특허 공보. 1990, 2871, 71-76
3 Edwards, S., Fukusho, A., Lefevre, P. C., Lipowski, A., Pejsak, Z, Roehe, P. and Westergaard, J. Classical swine fever the global situation. Vet. Microbiol. 2000, 73(2-3), 103-119
4 Hoorfar, J., WedderkopP, A. and Lind, P. Detection of antibodies to salmonella lipopolysacchande in muscle fluid fmm cattle. Am. J. Vet Res. 1997, 58(4), 334-337
5 Harkness, J. W. Classical swine fever and its diagnosis: A current view. Vet. Rec. 1985, 116(11), 288-293
6 Moser, C., Ruggli, N. and Tratschin, J. D. Detection of antibodies against classical swine fever virus in swine sera by indirect ELISA using recombinant envelope glycoprotein E2. Vet. Microbiol. 1996, 51, 41-53
7 OIE: Hog cholera(classical swine fever). In: OIE Manual of Standards for Diagnosdc Tests and Vaccines, 2nd ed. 1992, 109-122
8 Siegel, S. and Castellan, N. J. NaiyaianKtnc statistics, 2nd ed. McGraw-Hill Book Co, New York, 1988
9 Terpstra, C. Hog Cholera: An update of present knowledge. Br. Vet. J. 1991, 147, 397-406
10 Timoney, J. F., GiUespie, J. H., Scott, F. W. and Barlough, J. E. Hagan and Bruner's Microhiology and Infectious Diseases of Domestic Animals, 8th ed. Comstock. 1988, 729-740
11 Nielsen, B., Ekeroth, L., Bager, F. and Lind, P. Use of muscle fluid as a source of antibodies for serologic detection of salmonella infection in slaughter pig herds. J. Vet. Diagn. Invest. 1998, 10, 158-163
12 Volker, M. Introduction to classical swine fever: virus, disease and control policy. Vet. Microbiol. 2000, 78, 93-102
13 Van Oirschott, J. T. Hog Cholera. In: Diseases of Swine 8th ed. lowa State University Press, Ames, lowa, 159-172
14 최원필, 송회종, 김순재. 수의전염병학. 경북대학교출판부. 1997, 213-216
15 권혁진, 강병직,문재봉, 김선중. 조직 배양순화 돼지 콜레라 병독(L0M850) 접종돈의 항체소장에 대하여. 가축위생연구소보. 1968, 14, 53-57
16 Kumagai, T. New in vitro method(END) for detection and measurement of hog cholera virus and its antibody by means of effect of HC virus on Newcastle disease virus in swine tissue culture I. Establishment of standard procedure. J. Immunol. 1961, 81, 245-256
17 Lai, S. S. and Ho, W. H. Application of monoclonal antibody on dot iinmunoassay for the detection of hog cholera viral antigens and antibodies. J. Chinese. Soc. Vet. Sci. 1989, 15, 19-25
18 유영진, 강병직, 오화택, 박동권. 조직배양에서의 가토화 돈콜레라 병독의 증식과 증식병독의 면역에 관한 연구. 농사시험연구보고. 1963, 6(3), 73-76
19 권혁진, 윤석민, 하용공. END법을 이용한 돼지콜레라 바이러스 및 이에 대한 중화항체가 측정법 개량에 대한 시험. 대한수의사회지. 1991, 12, 725-728
20 Le Potier, M. F., Fournier, A., Houdayer, C., Hutet, E., Auvigne, V., Hery, D., Sanaa, M. and Toma B. Use of muscle exudates for the detection of anti-gE antibodies to Aujeszky's disease virus. Vet. Rec. 1998, 143, 385-387
21 박선일, 한흥율. 수의 임상역학 및 통계. 한길아카데미. 1999
22 이종복, 김병한, 안수환 송재영. 돼지콜레라에 대한 연구. 2. 단클론성 항체를 이용한 돼지콜레라 진단. 농시논문집(가축위생편). 1989, 31(4), 35-40
23 전윤성, 예재길,서익수. '83 돈콜레라 유행시의 면역모돈과 자돈의 END혈청중화항체가 조사. 대한수의학회지. 1985, 25(1), 69-75
24 Kini, B. H. and Joo, H. S. Elimination of respiratory pathogens in endemically infected swine herds by nursery depopulation. Kon-an J. Vet. Res. 1997, 37(4), 755-763
25 Trottier, Y. L., Wnght, P. F. and Lanviere, S. Optimization and standardization of an enzyme-linked immunosorbent assay protocol for serodiagnosis of Actinobacillus pleuropneumoniae serotype 5. J. Clin. Miiobiol. 1992, 30, 46-53
26 Terpstra, C., Bloeniraad, M. and Gielkens, A. L. The neutralizing peroxidase-linked assay for detection of antibody against swine fever virus. Vet. Microtnol. 1984, 9, 113-129
27 Wensvoort, G., Terpstra, C, Boonstra, J., Bloemraad, M. and Van Zaane, D. Production of monoclonal antibodies against swine fever virus and their use in laboratory diagnosis. Vet. Mcrobiol, 1987, 12, 101-108
28 Bland, J. M, and Altman, D. G. Statistical methods for assessing agreernenl between two methods of clinical measurement. Lancet, 1986, 1(8476), 307-310
29 Haaivvara, T. and Katsube, Y. Detection of toxoplasma infection in pork by Sabin-Feldrnans dye test with meat extmct. Jpn. J. Vet. Sci. 1981, 43, 763-765