Weber Klaus, Mayoral Francisco José, Vallejo Carla, Sánchez Raúl, Hartelust Roberto, Mendoza Paula, de Val Bernat Pérez, Savé Jordi, Okazaki Yoshimasa, Ortega Paula, Rocamora Laura, Sandoval Albert, Vallejo Raquel, de Miguel Ricardo, Kegler Kristel
AnaPath Services GmbH, Hammerstrasse 49, 4410 Liestal, Switzerland.
AnaPath Research S.A.U., c/Argenters 6, 08130 Santa Perpètua de Mogoda, Barcelona, Spain.
J Toxicol Pathol. 2024 Oct;37(4):197-206. doi: 10.1293/tox.2024-0048. Epub 2024 Jul 1.
Tuberculosis (TB) is a major health threat for humans and for non-human primates used for toxicology or research purposes. Emerging mycobacterial species represent a major challenge for diagnosis and surveillance programs. Here, we report a natural outbreak of in imported cynomolgus macaques () that occurred at AnaPath Research S.A.U. (APR). The macaques underwent repeated negative intradermal tuberculin tests (IDT) before importation and at the European quarantine station. Exhaustive TB screening was started at APR after confirmation of one positive case at another facility. The animal in question belonged to the same colony received at APR. Diagnostic approaches included clinical examination, PCR, culture, spoligotyping, IDT testing, interferon-γ release assay (IGRA), and thoracoabdominal ultrasound (US). Three regulatory toxicity studies and stock animals were affected. The macaques lacked clinical signs, except for one showing a fistulizing nodule in the right inguinal area, which tested positive for the Mycobacterium tuberculosis complex by PCR. All animals were necropsied and 10 macaques (n=114) showed gross and histologic findings compatible with TB confirmed by PCR and culture. was identified as the etiological agent by Direct Variable Repeat spacer oligonucleotide typing (DVR spoligotyping). The infection was traced to Asia via the SB1622 spoligotype involved, confirming that the animals were infected prior to their import into Europe. Tuberculin skin test (TST), IGRA, and US were only sensitive in detecting advanced cases of infection. One staff member showed a positive TST reaction, which was handled in accordance with the Spanish government's health regulations. All the sanitary measures implemented were effective in eradicating the disease.
结核病(TB)对人类以及用于毒理学研究或其他研究目的的非人灵长类动物而言是一项重大的健康威胁。新出现的分枝杆菌物种对诊断和监测计划构成了重大挑战。在此,我们报告了一起发生在AnaPath Research S.A.U.(APR)的进口食蟹猴自然爆发结核病的事件。这些食蟹猴在进口前以及在欧洲检疫站时,多次皮内结核菌素试验(IDT)结果均为阴性。在另一机构确认有一例阳性病例后,APR开始了全面的结核病筛查。该阳性病例所属动物与APR接收的同一群体相关。诊断方法包括临床检查、聚合酶链反应(PCR)、培养、间隔寡核苷酸分型(spoligotyping)、IDT检测、干扰素-γ释放试验(IGRA)以及胸腹超声检查(US)。三项监管毒性研究中的动物以及种畜受到了影响。除了一只在右腹股沟区出现瘘管结节的食蟹猴外,其他食蟹猴均无临床症状,该食蟹猴的结核分枝杆菌复合群经PCR检测呈阳性。所有动物均进行了尸检,10只食蟹猴(共114只)呈现出与结核病相符的大体和组织学检查结果,经PCR和培养得以证实。通过直接可变重复间隔区寡核苷酸分型(DVR spoligotyping)确定病原体为 。通过所涉及的SB1622间隔寡核苷酸分型追溯到感染源自亚洲,证实这些动物在进口到欧洲之前就已被感染。结核菌素皮肤试验(TST)、IGRA和US仅对检测晚期 感染敏感。一名工作人员TST反应呈阳性,已按照西班牙政府的卫生规定进行处理。所采取的所有卫生措施均有效地根除了该疾病。
