在夸祖鲁 - 纳塔尔省农村的室内聚集场所测量通风并模拟结核分枝杆菌传播

Measuring ventilation and modelling M. tuberculosis transmission in indoor congregate settings, rural KwaZulu-Natal.

作者信息

Taylor J G, Yates T A, Mthethwa M, Tanser F, Abubakar I, Altamirano H

机构信息

University College London (UCL) Institute for Environmental Design and Engineering, Bartlett School of Environment, Energy and Resources, UCL, London, UK.

Wellcome Trust Africa Centre for Population Health, Mtubatuba, South Africa; Centre for Infectious Disease Epidemiology, Research Department of Infection and Population Health, UCL, London, UK.

出版信息

Int J Tuberc Lung Dis. 2016 Sep;20(9):1155-61. doi: 10.5588/ijtld.16.0085.

DOI:10.5588/ijtld.16.0085

PMID:27510239

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4978153/

Abstract

SETTING

Molecular epidemiology suggests that most Mycobacterium tuberculosis transmission in high-burden settings occurs outside the home.

OBJECTIVE

To estimate the risk of M. tuberculosis transmission inside public buildings in a high TB burden community in KwaZulu-Natal, South Africa.

DESIGN

Carbon dioxide (CO2) sensors were placed inside eight public buildings. Measurements were used with observations of occupancy to estimate infection risk using an adaptation of the Wells-Riley equation. Ventilation modelling using CONTAM was used to examine the impact of low-cost retrofits on transmission in a health clinic.

RESULTS

Measurements indicate that infection risk in the church, classroom and clinic waiting room would be high with typical ventilation, occupancy levels and visit durations. For example, we estimated that health care workers in a clinic waiting room had a 16.9-24.5% annual risk of M. tuberculosis infection. Modelling results indicate that the simple addition of two new windows allowing for cross-ventilation, at a cost of US$330, would reduce the annual risk to health care workers by 57%.

CONCLUSIONS

Results indicate that public buildings in this community have a range of ventilation and occupancy characteristics that may influence transmission risks. Simple retrofits may result in dramatic reductions in M. tuberculosis transmission, and intervention studies should therefore be considered.

摘要

背景

分子流行病学研究表明，在结核病高负担地区，大多数结核分枝杆菌传播发生在家庭以外。

目的

评估南非夸祖鲁-纳塔尔省一个结核病高负担社区公共建筑内结核分枝杆菌传播的风险。

设计

在八座公共建筑内安装了二氧化碳（CO₂）传感器。利用这些测量数据以及对人员 occupancy 的观察结果，通过对 Wells-Riley 方程进行改编来估算感染风险。使用 CONTAM 软件进行通风建模，以研究低成本改造措施对一家诊所内传播情况的影响。

结果

测量结果表明，在典型的通风条件、人员 occupancy 水平和就诊时长下，教堂、教室和诊所候诊室的感染风险较高。例如，我们估计诊所候诊室的医护人员每年感染结核分枝杆菌的风险为 16.9%至 24.5%。建模结果表明，只需花费 330 美元简单地增加两扇可实现交叉通风的新窗户，就能将医护人员的年度感染风险降低 57%。

结论

结果表明，该社区的公共建筑具有一系列可能影响传播风险的通风和人员 occupancy 特征。简单的改造措施可能会显著降低结核分枝杆菌的传播，因此应考虑开展干预研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7768/4978153/000de9e7c519/i1027-3719-20-9-1155-f01.jpg

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在夸祖鲁 - 纳塔尔省农村的室内聚集场所测量通风并模拟结核分枝杆菌传播

Measuring ventilation and modelling M. tuberculosis transmission in indoor congregate settings, rural KwaZulu-Natal.

作者信息

机构信息

出版信息

SETTING

OBJECTIVE

DESIGN

RESULTS

CONCLUSIONS

背景

目的

设计

结果

结论

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