Handel Kathy, Kehler Helen, Hills Kevin, Pasick John
Canadian Food Inspection Agency, National Centre for Foreign Animal Disease, 1015 Arlington Street, Winnipeg, Manitoba, Canada R3E 3M4.
J Vet Diagn Invest. 2004 Mar;16(2):132-8. doi: 10.1177/104063870401600207.
Pigs were experimentally inoculated with Glentorf, Lelystad/97, and Alfort/187: representative low, moderate, and high virulent strains of classical swine fever virus (CSFV). Animals were tested for viremia using virus isolation and reverse transcriptase-polymerase chain reaction (RT-PCR) assays run under routine diagnostic conditions. The virus was detected in the peripheral blood by virus isolation and RT-PCR assays of all Glentorf- and Lelystad/97-infected pigs beginning at 3 days postinoculation (dpi) and in all Alfort/187-infected pigs beginning at 2 dpi. Viremia, as determined by virus isolation, remained detectable in Lelystad/97- and Alfort/187-infected pigs until the last animal within each cohort was euthanized on days 12 and 7 postinoculation, respectively. In contrast, the virus could be isolated from the blood of all Glentorf-infected pigs between 3 and 7 dpi but not from 10 to 21 dpi when the experiment was concluded. Viremia, as determined by RT-PCR, became apparent in Alfort/187-infected pigs at 2 dpi and in Glentorf- and Lelystad/97-infected pigs at 3 dpi. All pigs, regardless of the CSFV strain used, remained RT-PCR positive until they were euthanized. Tonsils were harvested from all the pigs and frozen sections tested for the presence of the CSFV antigen using polyclonal pestivirus and monoclonal CSFV horseradish peroxidase (HRPO) conjugates. Immunostaining reactions were positive for all the Alfort/187- and Lelystad/97-infected pigs. By contrast, tonsils from the Glentorf-infected pigs gave negative to equivocal results. These data suggest that an RT-PCR assay performed on blood may be the best test when dealing with pigs infected with low virulent strains of CSFV.
用格伦托夫株、莱利斯塔德/97株和阿尔福特/187株对猪进行实验性接种:这些分别是经典猪瘟病毒(CSFV)低、中、高毒力的代表性毒株。在常规诊断条件下,使用病毒分离和逆转录聚合酶链反应(RT-PCR)检测法对动物进行病毒血症检测。通过病毒分离和RT-PCR检测,在接种后3天(dpi)开始,所有感染格伦托夫株和莱利斯塔德/97株的猪外周血中检测到病毒;在接种后2天(dpi)开始,所有感染阿尔福特/187株的猪外周血中检测到病毒。通过病毒分离确定,莱利斯塔德/97株和阿尔福特/187株感染的猪在接种后第12天和第7天分别对每组最后一只动物实施安乐死之前,病毒血症一直可检测到。相比之下,在实验结束时,所有感染格伦托夫株的猪在3至7 dpi之间血液中可分离到病毒,但在10至21 dpi之间未检测到。通过RT-PCR确定,阿尔福特/187株感染的猪在2 dpi时出现病毒血症,格伦托夫株和莱利斯塔德/97株感染的猪在3 dpi时出现病毒血症。所有猪,无论使用何种CSFV毒株,在实施安乐死之前RT-PCR检测均为阳性。从所有猪身上采集扁桃体,并用多克隆瘟病毒和单克隆CSFV辣根过氧化物酶(HRPO)偶联物对冰冻切片进行CSFV抗原检测。所有感染阿尔福特/187株和莱利斯塔德/97株的猪免疫染色反应均为阳性。相比之下,感染格伦托夫株的猪扁桃体检测结果为阴性至可疑。这些数据表明,对于感染低毒力CSFV毒株的猪,对血液进行RT-PCR检测可能是最佳检测方法。
