浙江省宁波市小型兽类感染病原体调查

doi:10.11853/j.issn.1003.8280.2024.01.019

摘要/Abstract

摘要： 目的了解浙江省宁波市小型兽类（小兽）感染常见病原体的情况，为鼠传疾病防制提供依据。方法 2020－2022年在宁波市镇海区、宁海县、慈溪市和余姚市用笼夜法捕获小兽，经分类鉴定后采集其肝、脾、肺、肾等组织，应用实时荧光定量PCR（qRCR）或反转录实时荧光定量PCR（RT-qPCR）法检测汉坦病毒、大别班达病毒（原称发热伴血小板减少综合征病毒）、钩端螺旋体（钩体）和恙虫病东方体等4种病原体。χ²检验或Fisher确切概率法比较不同种类、性别、生境、县（区、市）及年份的小兽病原体阳性率差异。结果共捕获小兽668只，其中褐家鼠（24.70%）和北社鼠（23.65%）为优势种。捕获的小兽病原体总阳性率为9.43%，其中汉坦病毒（均为汉城型）和钩体阳性率分别为2.84%和6.89%，存在2种病原体复合感染现象，复合感染率为0.30%；未检出大别班达病毒和恙虫病东方体。不同种类、不同生境间的小兽病原体总阳性率差异有统计学意义（均P<0.001）；不同性别、不同年份和不同县（区、市）的病原体总阳性率差异均无统计学意义（均P>0.05）。不同小兽种类中，汉坦病毒阳性率最高的是小家鼠和褐家鼠，分别为10.00%和8.48%；钩体阳性率最高的是黄毛鼠，为15.38%。不同生境中，重点行业小兽的汉坦病毒阳性率最高（10.84%）；城镇居民区小兽的钩体阳性率最高（11.76%）。不同县（区、市）中，慈溪市小兽汉坦病毒阳性率最高，达9.90%；余姚市和宁海县小兽钩体阳性率较高，分别为10.00%和9.12%。结论宁波市小兽存在汉坦病毒和钩体等病原体感染，对当地人群健康构成潜在威胁，应采取针对性防控措施，降低人群感染风险。

关键词: 鼠传疾病, 汉坦病毒, 钩端螺旋体, 大别班达病毒, 恙虫病东方体

Abstract: Objective To investigate common pathogen infections in small mammals in Ningbo, Zhejiang Province, China, so as to provide a basis for the prevention and control of rodent-borne diseases. Methods From 2020 to 2022, small mammals were captured using the night cage-trapping method in Zhenhai District, Ninghai County, Cixi and Yuyao cities of Ningbo. The small mammals were identified by morphological method, and their livers, spleens, lungs, and kidneys samples were collected. Real-time fluorescent quantitative PCR (qPCR) or reverse transcription-qPCR (RT-qPCR) was used to detect four pathogens: Hantavirus, Dabie bandavirus (i.e., Severe fever with thrombocytopenia syndrome virus), Leptospira, and Orientia tsutsugamushi. The differences in pathogen positive rates in the small mammals between different species, sexes, habitats, districts (counties, cities), and years were compared using the χ² test or Fisher’s exact test. Results A total of 668 small mammals were captured, of which Rattus norvegicus (24.70%) and Niviventer confucianus (23.65%) were dominant species. The overall positive rate of the four pathogens in the small mammals was 9.43%, of which Hantavirus (all Seoul virus) and Leptospira accounted for 2.84% and 6.89%, respectively. Coinfections with two viruses were found, with a coinfection rate of 0.30%. Neither Dabie bandavirus nor O. tsutsugamushi was detected. There were significant differences in the overall positive rate of pathogens in the small mammals between different species and between different habitats (all P<0.001), but not between different sexes, different years, and different districts (counties, cities) (all P>0.05). Among various small mammal species, the positive rate of Hantavirus was the highest in Mus musculus and in R. norvegicus (10.00% and 8.48%, respectively); the positive rate of Leptospira was the highest in R. losea (15.38%). In different habitats, the positive rate of Hantavirus in small mammals was the highest in key industries (10.84%); the positive rate of Leptospira was the highest in urban residential areas (11.76%). In different districts (counties, cities), the positive rate of Hantavirus in small mammals was the highest in Cixi (9.90%). The positive rates of Leptospira in small mammals in Yuyao and Ninghai were higher, at 10.00% and 9.12%, respectively. Conclusions Infections with pathogens such as Hantavirus and Leptospira in small mammals are found in Ningbo, which pose a potential threat to the health of the local population. Targeted prevention and control measures should be taken to reduce the risk of human infections.

Key words: Rodent-borne disease, Hantavirus, Leptospira, Dabie bandavirus, Orientia tsutsugamushi

中图分类号:

S443

马敏, 何昕, 李梦颖, 杨思嘉, 马晓. 浙江省宁波市小型兽类感染病原体调查[J]. 中国媒介生物学及控制杂志, 2024, 35(1): 104-108.

MA Min, HE Xin, LI Meng-ying, YANG Si-jia, MA Xiao. An investigation of pathogen infections in small mammals in Ningbo， Zhejiang Province， China[J]. Chinese Journal of Vector Biology and Control, 2024, 35(1): 104-108.

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