保护性隔离室的微生物生态学:空气和表面。

Q3 Medicine
Yousra Sbibih, Abderrazak Saddari, Ilham Alla, Oumayma Abdesselami, Chaymae Ben Moussa, Said Ezrari, Elmostapha Benaissa, Yassine Ben Lahlou, Mostafa Elouennass, Adil Maleb
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引用次数: 0

摘要

导言:与医疗保健相关的感染给公共卫生造成了巨大负担,导致发病率、死亡率、住院时间延长以及大量的社会和经济成本。目的:这项前瞻性研究在乌季达穆罕默德六世大学医院进行,旨在评估免疫抑制病房与双人住院病房的表面和空气微生物生态:在 Microflow Alpha 的协助下,采用沉降法和碰撞法进行了微生物空气纯度测试。沉降法使用的是含 5%人体血液的穆勒-辛顿(Mueller Hinton),有利于受污染的尘埃微粒自由下落。收集程序设定为每 1 立方米 10 分钟。表面采样时,从 25 平方厘米的表面取拭子。拭子被立即送往微生物实验室。我们对菌落进行了宏观和微观鉴定,然后使用 BD phoenixTM 系统进行了明确的生化鉴定。通过在 Muller Hinton 培养基上进行琼脂扩散并测定最小抑菌浓度,对抗生素敏感性进行了评估:结果:结果显示,与标准病房相比,保护性隔离病房内的细菌数量有所减少。我们注意到凝固酶阴性葡萄球菌属和芽孢杆菌属占多数。金黄色葡萄球菌和曲霉菌属是医护人员相关感染的常见病原体,但在保护性隔离室中却明显缺乏。这些发现强调了医院环境在医疗相关感染传播中的关键作用:结论:保护性隔离室有效控制了微生物污染,病菌数量减少,抗药性降低。这项研究强调了空气处理系统在防止机会性感染传播方面的重要作用。我们的研究强调了微生物清洁在预防院内感染中的关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microbial ecology of protective isolation room: Air and Surfaces.

Introduction: Healthcare-associated infections pose a significant public health burden, leading to morbidity, mortality, prolonged hospital stays, and substantial social and economic costs. Immunocompromised patients are at a heightened risk of nosocomial infections.

Aim: This prospective study conducted at Mohammed VI University Hospital of Oujda aimed to assess the microbial ecology of surfaces and air in an immunosuppressed patient room compared to a double hospitalization room.

Methods: Microbiological air purity tests were conducted employing both the sedimentation method and the collision method with the assistance of Microflow Alpha. The sedimentation method used Mueller Hinton with 5% human blood, facilitating the free fall of contaminated dust particles. The collection program employed was set for 10 minutes per 1 m3. For surface sampling, swabs were taken from a 25 cm2 surface. The swabs were immediately forwarded to the Microbiology Laboratory. We carried out both macroscopic and microscopic identification of colonies, followed by definitive biochemical identification using the BD phoenixTM system. Antibiotic susceptibility was assessed through agar diffusion on Muller Hinton medium coupled with the determination of the minimum inhibitory concentration.

Results: The results revealed a decreased bacterial count within the protective isolation room, in contrast to the standard hospital room. We noted the predominance of coagulase-negative Staphylococcus spp and Bacillus spp. Staphylococcus aureus and Aspergillus spp, common pathogens in healthcare-associated infections, were notably absent in the protective isolation room. The findings underline the pivotal role of hospital environments in the transmission of healthcare-associated infections.

Conclusion: The protective isolation room demonstrated effective control of microbial contamination, with fewer and less resistant germs. The study highlighted the significance of air treatment systems in preventing the spread of opportunistic infections. Our study underscored the critical role of microbiological cleanliness in preventing nosocomial infections.

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来源期刊
Tunisie Medicale
Tunisie Medicale Medicine-Medicine (all)
CiteScore
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