2020年12月在乌干达塞巴布勒区暴发裂谷热。

IF 3.8 Q2 INFECTIOUS DISEASES
Freda Loy Aceng, Joshua Kayiwa, Peter Elyanu, Joseph Ojwang, Luke Nyakarahuka, Stephen Balinandi, Jayne Byakika-Tusiime, Alfred Wejuli, Julie Rebecca Harris, John Opolot
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引用次数: 0

摘要

背景:裂谷热(RVF)是一种病毒性人畜共患病,可引起人类严重的出血热和牲畜高死亡率和流产。2020年12月10日,乌干达卫生部接到通知,一名25岁男性在乌干达病毒研究所经逆转录聚合酶链反应(RT-PCR)检测呈裂谷热阳性后死亡。我们进行了调查,以确定疫情的范围,确定暴露因素,并制定控制措施。方法:2020年11月1日至12月31日,Sembabule区一名居民出现急性发热(或腋窝温度> 37.5℃)和≥2项:头痛、肌肉或关节痛、意外出血和任何肠胃炎症状。1例确诊病例为RT-PCR检测裂谷热病毒核酸或酶联免疫吸附试验(ELISA)检测血清IgM抗体。疑似动物病例为有流产史的牲畜(牛、绵羊、山羊)。1例动物确诊病例采用ELISA检测抗裂谷热IgM抗体。我们采集了与指示病例一起工作的牧民的血液样本进行裂谷热检测,并进行了访谈,以更多地了解接触情况和临床特征。我们审查了医疗记录,并在社区进行了积极的搜索,以确定其他嫌疑人。从指示病例所在农场和两个邻近农场的动物身上采集血液样本进行裂谷热检测。结果:指示病例定期饮用生牛奶。与他一起工作的七个牧民和他兄弟的妻子都没有出现症状;然而,一名牧民的血液样本呈抗裂谷热特异性IgM和IgG阳性。指示病例和新增确诊病例均未屠宰或屠宰任何病/死动物或处理流产;然而,其他一些牧民确实报告了接触动物体液和饮用生奶的高风险情况。55只动物(雄性2只,雌性53只)抗裂谷病毒igg阳性29只(53%)。结论:2020年12月在Sembabule地区发生了两例人间裂谷热病例,可能是由受感染的牛与人之间的密切相互作用引起的。全区范围的动物血清调查、动物疫苗接种和预防感染做法的社区教育运动可为裂谷热暴露提供信息并减轻疾病负担。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rift valley fever outbreak in Sembabule District, Uganda, December 2020.

Background: Rift Valley Fever (RVF) is a viral zoonosis that can cause severe haemorrhagic fevers in humans and high mortality rates and abortions in livestock. On 10 December 2020, the Uganda Ministry of Health was notified of the death of a 25-year-old male who tested RVF-positive by reverse-transcription polymerase chain reaction (RT-PCR) at the Uganda Virus Research Institute. We investigated to determine the scope of the outbreak, identify exposure factors, and institute control measures.

Methods: A suspected case was acute-onset fever (or axillary temperature > 37.5 °C) and ≥ 2 of: headache, muscle or joint pain, unexpected bleeding, and any gastroenteritis symptom in a resident of Sembabule District from 1 November to 31 December 2020. A confirmed case was the detection of RVF virus nucleic acid by RT-PCR or serum IgM antibodies detected by enzyme-linked immunosorbent assay (ELISA). A suspected animal case was livestock (cattle, sheep, goats) with any history of abortion. A confirmed animal case was the detection of anti-RVF IgM antibodies by ELISA. We took blood samples from herdsmen who worked with the index case for RVF testing and conducted interviews to understand more about exposures and clinical characteristics. We reviewed medical records and conducted an active community search to identify additional suspects. Blood samples from animals on the index case's farm and two neighbouring farms were taken for RVF testing.

Results: The index case regularly drank raw cow milk. None of the seven herdsmen who worked with him nor his brother's wife had symptoms; however, a blood sample from one herdsman was positive for anti-RVF-specific IgM and IgG. Neither the index case nor the additional confirmed case-patient slaughtered or butchered any sick/dead animals nor handled abortus; however, some of the other herdsmen did report high-risk exposures to animal body fluids and drinking raw milk. Among 55 animal samples collected (2 males and 53 females), 29 (53%) were positive for anti-RVF-IgG.

Conclusions: Two human RVF cases occurred in Sembabule District during December 2020, likely caused by close interaction between infected cattle and humans. A district-wide animal serosurvey, animal vaccination, and community education on infection prevention practices campaign could inform RVF exposures and reduce disease burden.

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