军团菌在冷却塔中的定殖：危险因素和控制措施评估。

Legionella species colonization in cooling towers: risk factors and assessment of control measures.

机构信息

Department of Hygiene and Epidemiology, Medical School, University of Thessaly, Larissa, Greece.

出版信息

Am J Infect Control. 2010 Feb;38(1):50-5. doi: 10.1016/j.ajic.2009.04.285. Epub 2009 Aug 20.

DOI:10.1016/j.ajic.2009.04.285

PMID:19699013

Abstract

BACKGROUND

Cooling towers can be colonized by Legionella spp, and inhalation of aerosols generated by their operation may cause Legionnaires' disease in susceptible hosts. Environmental investigations of Legionnaires' disease outbreaks linked with cooling towers have revealed poorly maintained systems, lack of control measures, and failure of system equipment. The purpose of this study was to identify Legionella-contaminated cooling towers, identify risk factors for contamination, and assess the effectiveness of control measures.

METHODS

A total of 96 cooling towers of public buildings were registered and inspected, and 130 samples were collected and microbiologically tested. Microbiological test results were associated with characteristics of cooling towers, water samples, inspection results, and maintenance practices.

RESULTS

Of the total 96 cooling towers examined, 47 (48.9%) were colonized by Legionella spp, and 22 (22.9%) required remedial action. A total of 65 samples (50.0%) were positive (> or = 500 cfu L(-1)), and 30 (23%) were heavily contaminated (> or = 10(4) cfu L(-1)). Of the 69 isolates identified, 55 strains (79.7.%) were L pneumophila. Legionella colonization was positively associated with the absence of training on Legionella control (relative risk [RR] = 1.66; P = .02), absence of regular Legionella testing (RR = 2.07: P = .002), absence of sunlight protection (RR = 1.63: P = .02), with samples in which the free residual chlorine level in the water sample was < 0.5 mg/L (RR = 2.23; P = .01), and with total plate count (P =.001). Colonization was negatively associated with chemical disinfection (RR = 0.2; P = .0003) and with the presence of a risk assessment and management plan (RR = 0.12; P = .0005). A statistically significant higher age (P =.01) was found in legionellae-positive cooling towers (median, 17 years; interquartile range [IQR] =5.0 to 26.0 years) compared with noncolonized cooling towers (median age, 6 years; IQR =1.0 to 13.5 years). After the 22 legionellae-positive cooling towers were disinfected with chlorine, 2 (9%) of them remained positive for Legionella spp with a concentration > or = 1000 cfu L(-1).

CONCLUSIONS

Cooling towers can be heavily colonized by Legionella spp and thus present a potential risk for infection. This study demonstrates the importance of a risk assessment and management plan. Water chlorination effectively reduces legionellae contamination. Proper training of cooling tower operators is paramount.

摘要

背景

冷却塔可能被军团菌属定植，其运行产生的气溶胶吸入可能导致易感宿主患军团病。与冷却塔相关的军团病暴发的环境调查揭示了维护不善的系统、缺乏控制措施以及系统设备故障。本研究旨在确定受污染的冷却塔，确定污染的危险因素，并评估控制措施的效果。

方法

共登记和检查了 96 座公共建筑的冷却塔，并采集了 130 个样本进行微生物检测。微生物检测结果与冷却塔、水样、检查结果和维护实践的特征相关联。

结果

在检查的 96 座冷却塔中，有 47 座（48.9%）被军团菌属定植，有 22 座（22.9%）需要采取补救措施。共有 65 个样本（50.0%）呈阳性（>或=500 cfu L(-1)），30 个样本（23%）呈重度污染（>或=10(4) cfu L(-1)）。在鉴定的 69 株分离株中，有 55 株（79.7%）为嗜肺军团菌。军团菌定植与缺乏军团菌控制培训（相对风险 [RR] = 1.66；P =.02）、缺乏定期军团菌检测（RR = 2.07：P =.002）、缺乏阳光保护（RR = 1.63：P =.02）、水样中游离余氯水平<0.5 mg/L（RR = 2.23；P =.01）和总平板计数（P =.001）呈正相关。与化学消毒（RR = 0.2；P =.0003）和存在风险评估和管理计划（RR = 0.12；P =.0005）呈负相关。与未定植的冷却塔相比，军团菌阳性冷却塔的年龄（P =.01）显著更高（中位数，17 岁；四分位距 [IQR] =5.0 至 26.0 岁）（中位数年龄，6 岁；IQR =1.0 至 13.5 岁）。对 22 个军团菌阳性冷却塔进行氯消毒后，有 2 个（9%）仍有浓度>或=1000 cfu L(-1)的军团菌属定植阳性。