从菲律宾高人类钩端螺旋体病发病率地区的环境来源中鉴定出 spp.。
Identification of spp. from environmental sources in areas with high human leptospirosis incidence in the Philippines.
机构信息
a Institute of Biology, College of Science , University of the Philippines , Quezon City , Philippines.
b Pathogen-Host-Environment Interactions Research Laboratory , Natural Sciences Research Institute, University of the Philippines , Quezon City , Philippines.
出版信息
Pathog Glob Health. 2019 May;113(3):109-116. doi: 10.1080/20477724.2019.1607460. Epub 2019 Apr 22.
is the causative agent of leptospirosis, which is considered an emerging major threat to public health due to its increasing frequency reported worldwide. In the Philippines, the prevalence of the disease continuously rises, particularly in urban areas. Because leptospirosis is commonly transmitted through contact with contaminated environment, water and soil samples were collected in regions in the Philippines where high incidence of human leptospirosis cases was reported recently. Of the 54 samples screened for the presence of , 35% were found positive through 23S rRNA gene PCR-based detection. None were found positive when primers targeting , and genes were used. Most of these isolates were collected from rural areas. However, 16S rRNA gene sequencing identified all isolates to be and , which are nonpathogenic. Despite the lack of evidence of the presence of pathogenic species in the environmental sources, the results still suggest that leptospires persist in these areas. These data are crucial for environmental monitoring and identification of contaminated areas where humans may be at risk of infection.
钩端螺旋体是钩端螺旋体病的病原体,由于其在全球范围内的报告频率不断增加,被认为是对公众健康的一个新的主要威胁。在菲律宾,该疾病的流行率不断上升,特别是在城市地区。由于钩端螺旋体病通常通过接触受污染的环境、水和土壤传播,因此在菲律宾最近报告了大量人类钩端螺旋体病病例的地区采集了水和土壤样本。在筛选的 54 个样本中,通过基于 23S rRNA 基因 PCR 的检测,有 35%呈阳性。当使用针对 和 基因的引物时,没有发现阳性样本。这些分离株大多来自农村地区。然而,16S rRNA 基因测序鉴定所有分离株均为 ,属于非致病性的。尽管在环境来源中没有发现致病性物种存在的证据,但这些结果仍表明钩端螺旋体在这些地区持续存在。这些数据对于环境监测和鉴定人类可能有感染风险的污染地区至关重要。
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