Public Toilets in a tertiary institution in the Southern part of Nigeria as Potential Reservoirs of Drug Resistant Pathogens

K. Otokunefor, D. C. Chijioke, J. Kalio, G. Abu
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引用次数: 1

Abstract

Toilets have long been viewed as a significant potential contributor to human infectious diseases. Various studies worldwide have explored the bacterial communities associated with toilets but only few have focused on their possible role as reservoirs of drug resistant pathogens. To explore this role, four different surfaces from a pay-to-use toilet complex at a tertiary institution in the Southern part of Nigeria were sampled using the swab-rinse technique. Sample processing was done to determine bacterial load, identify bacterial types present in the samples and determine antibiotic susceptibility using standard techniques. Similar levels of bacterial contamination were observed at all the 14 sampling points ranging from 3.6×104 to 2.7×105 CFU. A higher level of contamination was generally noted on the door handles and floor surfaces. Of the ten different bacterial groups identified, Shigella sp. and Salmonella sp. were the predominant groups (20.6% each). The test isolates showed a wide rate of resistance to antibiotics, with the highest observed against ofloxacin (98.3%) and the least against ceftriaxone (44.4%). Forty-three different antibiogram patterns were detected among the test isolates. Most of the bacteria (63.2%) were associated with MAR index values greater than 0.8. This study shows that public toilets could play a role not just as a reservoir of potential pathogens but more specifically as a potential reservoir of drug resistant pathogenic microorganisms with high MAR indices. Keywords: Toilet, Reservoir, MAR index, Nigeria
尼日利亚南部一所高等教育机构的公共厕所是耐药病原体的潜在宿主
长期以来,厕所一直被视为人类传染病的重要潜在诱因。世界各地的各种研究都探索了与厕所有关的细菌群落,但很少有人关注它们作为耐药病原体储存库的可能作用。为了探索这一作用,我们使用棉签冲洗技术对尼日利亚南部一所高等院校的付费使用厕所的四个不同表面进行了采样。进行样品处理以确定细菌负荷,鉴定样品中存在的细菌类型,并使用标准技术确定抗生素敏感性。在从3.6×104到2.7×105 CFU的所有14个采样点均观察到类似水平的细菌污染。门把手和地板表面的污染程度普遍较高。在所鉴定的10个不同菌群中,志贺氏菌和沙门氏菌为优势菌群(各占20.6%)。试验分离株对抗生素的耐药率广泛,对氧氟沙星的耐药率最高(98.3%),对头孢曲松的耐药率最低(44.4%)。在试验分离株中检出43种不同的抗生素谱。大多数细菌(63.2%)的MAR指数大于0.8。这项研究表明,公共厕所不仅可以作为潜在病原体的储存库,更具体地说,它是具有高MAR指数的耐药致病微生物的潜在储存库。关键词:厕所,水库,MAR指数,尼日利亚
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