有些人喜欢热的:尾部加热装置对不同革兰氏阴性细菌的不同影响

Stacy Park, Shireen Kotay, Katie Barry, Joanne Carroll, April Attai, William Guilford, Amy Mathers
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引用次数: 0

摘要

背景:多药耐药细菌从定植的医院水槽排水管向患者传播,促使人们尝试通过针对废水环境的各种干预措施来中断传播。我们之前发现,使用加热装置来破坏P捕集器和水槽排水管之间的生物膜形成,这是细菌向患者护理环境扩散的主要点,与降低医院水槽排水管上可检测到的革兰氏阴性生物的风险有关。但对铜绿假单胞菌、嗜麦芽窄养单胞菌等重要病原菌未见效果。我们假设加热到更高的温度将提供额外的功效,以防止排水管定植。方法:作为先前随机研究的一部分,在一家学术医院的3个重症监护室和一家相关地区医院的2个急症监护室安装了54台尾片加热器;这些设备中有一半是假的(即没有热量)。这些装置被设定为每四个小时加热一小时。在本研究之前,设备更新提高了加热温度(在之前的研究中,加热温度中位数为65.9°C)。每个月取样一次水槽排水渠和集磷器。在麦康基琼脂上检测革兰氏阴性菌的半定量生长,特别是铜绿假单胞菌和嗜麦芽链球菌。前线人员对设备分配一无所知。结果:平均受热温度为74.4℃。根据比例优势逻辑回归(其中优势比反映了给定样品落在较低微生物负荷水平与高于其水平的可能性),加热装置与MacConkey琼脂上一般生长的排液水平较低微生物负荷的可能性增加相关(OR, 2.47;95% CI, 1.11-5.51)和嗜麦芽链球菌的生长(OR, 5.39;95% ci, 2.20-13.18)。该装置对肠杆菌负荷没有影响(OR, 1.38;95% ci, 0.58-3.24)。对于铜绿假单胞菌,有降低微生物负荷可能性的趋势(OR, 0.41;95% CI, 0.18-1.07),在排水管水平上没有达到统计学意义,加热装置与P-trap水平上铜绿假单胞菌微生物负荷降低的可能性相关(OR, 0.20;95% ci, 0.10-0.39)。结论:热破坏P集水池与汇之间的生物膜可能是预防医院汇排定植的一种有希望的策略;然而,对不同细菌种类的影响是不同的。需要进一步了解废水中微生物组的动态。披露:没有
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Some like it hot: Variable impact of a tailpiece heating device on different gram-negative bacteria
Background: Transmission of multidrug-resistant bacteria to patients from colonized hospital sink drains has prompted attempts to interrupt transmission through a variety of interventions directed at the wastewater environment. We previously found that use of a heating device designed to disrupt biofilm formation between the P trap and the sink drain, which is the major point of dispersal of bacteria to the patient-care environment, was associated with reduced risk of detectable gram-negative organisms on hospital sink drains. However, there was no observed effect on some important pathogens, including Pseudomonas aeruginosa and Stenotrophomonas maltophilia . We hypothesized that heating to a higher temperature would provide additional efficacy in preventing drain colonization. Methods: As part of a previous randomized study, 54 tailpiece heaters were installed in 3 intensive care units in an academic hospital and 2 acute-care units in an associated regional hospital; half of these devices were shams (ie, no heat). The devices were programmed to heat for 1 hour every fourth hour. Prior to this study, a device update increased the heating temperature (during the previous study the median heated temperature was 65.9°C). Sink drains and P traps were sampled monthly. Samples were assessed for semiquantitative growth of gram-negative bacteria on MacConkey agar, looking especially for P. aeruginosa and S. maltophilia . Frontline personnel were blinded to device assignment. Results: The mean heated temperature reached was 74.4°C. Based on proportional odds logistic regression (wherein the odds ratio reflects the likelihood of a given sample falling in a lower microbiologic burden level versus the levels above it), the heating device was associated with increased likelihood of lower microbiologic burden at the drain level for general growth on MacConkey agar (OR, 2.47; 95% CI, 1.11–5.51) and for growth of S. maltophilia (OR, 5.39; 95% CI, 2.20–13.18). The device did not have an effect on burden of Enterobacterales (OR, 1.38; 95% CI, 0.58–3.24). For P. aeruginosa , there was a trend toward decreased likelihood of lower microbiologic burden (OR, 0.41; 95% CI, 0.18–1.07) that did not reach statistical significance at the drain level, and the heating device was associated with decreased likelihood of lower microbiologic burden of P. aeruginosa at the P-trap level (OR, 0.20; 95% CI, 0.10–0.39). Conclusions: Heat disruption of biofilm between the P trap and sink may be a promising strategy for prevention of hospital sink drain colonization; however, the impact is variable across different bacterial species. Further understanding of the dynamics of the microbiome within wastewater is needed. Disclosures: None
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