调查从新传染病病房门把手上分离出的细菌在患者入院前后的分类和抗菌药耐药性变化情况。

IF 3.7 2区 生物学 Q2 MICROBIOLOGY
Gavin Ackers-Johnson, Ralfh Pulmones, Danielle McLaughlan, Amy Doyle, Joseph M Lewis, Tim Neal, Stacy Todd, Adam P Roberts
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引用次数: 0

摘要

医疗相关感染(HAIs)是卫生系统的一大负担,而抗菌素耐药性(AMR)则进一步加剧了这一问题。医院环境在 HAIs 的发生中扮演着重要角色,而微生物监测则为干预措施奠定了基础。我们在患者入院前以及入院后 6 个月和 12 个月对一家新建医院的 40 个门把手进行了采样。我们利用 16S rDNA 测序来鉴定独特的菌落,利用盘扩散试验来评估葡萄球菌属的抗生素耐药性,并利用全基因组测序(WGS)鉴定耐多药(MDR)分离物。在患者入院前,43%的病例中存在葡萄球菌,6 个月和 12 个月后分别增至 55% 和 65%,而芽孢杆菌则从 3% 大幅增至 68% 和 85%。没有发现 ESKAPE 病原体。葡萄球菌属在入院前对所有抗生素的耐药性相对较低,但头孢西丁除外(56%)。病房使用 6 个月后,耐药性最高,12 个月后,对所有抗生素都敏感的分离株有所增加(敏感率分别为 11% 和 54%)。然而,MDR 仍居高不下。WGS 发现 blaZ(25/26)、mecA(22/26)和 aac6-aph2 (20/26)是最多的耐药基因。分别在前两个时间点发现的两例人葡萄球菌分离株和在所有三个时间点发现的三例表皮葡萄球菌分离株被认为是克隆。这项研究强调了可在高接触表面恢复的耐药细菌库的普遍性,以及在病人入院前首次引入的葡萄球菌属的长期存在:医疗相关感染(HAIs)是医疗系统的一项重大负担,会增加发病率、死亡率和入院经济成本。抗菌素耐药性(AMR)进一步加剧了这一问题,因为可行的治疗方案受到限制。以往的研究表明,环境清洁干预措施减少了 HAIs。为确保这些干预措施的有效性,必须从微生物层面分析医院环境,尤其是与人频繁接触的表面。除了识别感染性微生物外,对典型的非感染性微生物进行评估也很有益处,因为包括 AMR 在内的特征会在两者之间传递。我们的研究发现,在医院病房的高接触表面上发现的典型非感染性微生物具有很高的抗生素耐药性。不过,所发现的这些生物表明,现有的清洁规程已经足够,它们的存在是由于清洁后通过人际互动反复重新定殖造成的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the changing taxonomy and antimicrobial resistance of bacteria isolated from door handles in a new infectious disease ward pre- and post-patient admittance.

Healthcare-associated infections (HAIs) are a significant burden to health systems, with antimicrobial resistance (AMR) further compounding the issue. The hospital environment plays a significant role in the development of HAIs, with microbial surveillance providing the foundation for interventions. We sampled 40 door handles at a newly built hospital prior to patients being admitted and then 6 and 12 months after this date. We utilized 16S rDNA sequencing to identify unique colonies, disc diffusion assays to assess the antibiotic resistance of Staphylococcus spp., and whole-genome sequenced (WGS) multidrug-resistant (MDR) isolates. Before patient admission, 43% of sites harbored Staphylococcus spp., increasing to 55% and 65% at six and 12 months, respectively, while Bacillus spp. saw a large increase from 3% to 68% and 85%, respectively. No ESKAPE pathogens were identified. Staphylococcus spp. showed relatively low resistance to all antibiotics except cefoxitin (56%) before patient admittance. Resistance was highest after 6 months of ward use, with an increase in isolates susceptible to all antibiotics after 12 months (11% and 54% susceptibility, respectively). However, MDR remained high. WGS revealed blaZ (25/26), and mecA (22/26) and aac6-aph2 (20/26) were the most abundant resistance genes. Two Staphylococcus hominis isolates identified at the first two time points, respectively, and three Staphylococcus epidermidis isolates identified at all three time points, respectively, were believed to be clonal. This study highlighted the prevalence of a resistant reservoir of bacteria recoverable on high-touch surfaces and the long-term persistence of Staphylococcus spp. first introduced prior to patient admission.

Importance: Healthcare-associated infections (HAIs) are a significant burden to health systems, conferring increased morbidity, mortality, and financial costs to hospital admission. Antimicrobial resistance (AMR) further compounds the issue as viable treatment options are constrained. Previous studies have shown that environmental cleaning interventions reduced HAIs. To ensure the effectiveness of these, it is important to analyze the hospital environment at a microbial level, particularly high-touch surfaces which see frequent human interaction. In addition to identifying infectious microorganisms, it is also beneficial to assess typically non-infectious organisms, as traits including AMR can be transferred between the two. Our study identified that there were high levels of antibiotic resistance in typically non-infectious organisms found on high touch surfaces on a hospital ward. However, the organisms identified suggested that the cleaning protocols in place were sufficient, with their presence being due to repeated recolonization events through human interaction after cleaning had taken place.

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来源期刊
Microbiology spectrum
Microbiology spectrum Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
3.20
自引率
5.40%
发文量
1800
期刊介绍: Microbiology Spectrum publishes commissioned review articles on topics in microbiology representing ten content areas: Archaea; Food Microbiology; Bacterial Genetics, Cell Biology, and Physiology; Clinical Microbiology; Environmental Microbiology and Ecology; Eukaryotic Microbes; Genomics, Computational, and Synthetic Microbiology; Immunology; Pathogenesis; and Virology. Reviews are interrelated, with each review linking to other related content. A large board of Microbiology Spectrum editors aids in the development of topics for potential reviews and in the identification of an editor, or editors, who shepherd each collection.
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