Microbiological problems and biofilms associated with Mycobacterium chimaera in heater–cooler units used for cardiopulmonary bypass

The role of heater–cooler units (HCUs) in the transmission of Mycobacterium chimaera during open heart surgery has been recognized since 2013. Subsequent investigations uncovered a remarkable global outbreak reflecting the wide distribution of implicated devices. HCUs are an essential component of c...

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Published in:The Journal of hospital infection 2017-07, Vol.96 (3), p.209-220
Main Authors: Walker, J., Moore, G., Collins, S., Parks, S., Garvey, M.I., Lamagni, T., Smith, G., Dawkin, L., Goldenberg, S., Chand, M.
Format: Article
Language:English
Subjects:
Aerosol
Biofilm
Biofilms - growth & development
Cardiac surgery
Cardiopulmonary Bypass - instrumentation
Disinfection - methods
Equipment and Supplies - microbiology
Heater–cooler
Humans
Mycobacterium - isolation & purification
Mycobacterium - physiology
Mycobacterium chimaera
Mycobacterium Infections - epidemiology
Mycobacterium Infections - microbiology
Mycobacterium Infections - prevention & control
Non-tuberculous mycobacterium
United Kingdom - epidemiology
Water Microbiology
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container_title The Journal of hospital infection
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creator Walker, J.
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Chand, M.
description The role of heater–cooler units (HCUs) in the transmission of Mycobacterium chimaera during open heart surgery has been recognized since 2013. Subsequent investigations uncovered a remarkable global outbreak reflecting the wide distribution of implicated devices. HCUs are an essential component of cardiopulmonary bypass operations and their withdrawal would severely affect capacity for life-saving cardiac surgery. However, studies have demonstrated that many HCUs are contaminated with a wide range of micro-organisms, including M. chimaera and complex biofilms. Whole genome sequencing of M. chimaera isolates recovered from one manufacturer’s HCUs, worldwide, has demonstrated a high level of genetic similarity, for which the most plausible hypothesis is a point source contamination of the devices. Dissemination of bioaerosols through breaches in the HCU water tanks is the most likely route of transmission and airborne bacteria have been shown to have reached the surgical field even with the use of ultraclean theatre ventilation. Controlling the microbiological quality of the water circulating in HCUs and reducing biofilm formation has been a major challenge for many hospitals. However, enhanced decontamination strategies have been recommended by manufacturers, and, although they are not always effective in eradicating M. chimaera from HCUs, UK hospitals have not reported any new cases of M. chimaera infection since implementing these mitigation strategies. Water safety groups in hospitals should be aware that water in medical devices such as HCUs may act as a vector in the transmission of potentially fatal water-borne infections.
doi_str_mv 10.1016/j.jhin.2017.04.014
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Controlling the microbiological quality of the water circulating in HCUs and reducing biofilm formation has been a major challenge for many hospitals. However, enhanced decontamination strategies have been recommended by manufacturers, and, although they are not always effective in eradicating M. chimaera from HCUs, UK hospitals have not reported any new cases of M. chimaera infection since implementing these mitigation strategies. 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subjects Aerosol
Biofilm
Biofilms - growth & development
Cardiac surgery
Cardiopulmonary Bypass - instrumentation
Disinfection - methods
Equipment and Supplies - microbiology
Heater–cooler
Humans
Mycobacterium - isolation & purification
Mycobacterium - physiology
Mycobacterium chimaera
Mycobacterium Infections - epidemiology
Mycobacterium Infections - microbiology
Mycobacterium Infections - prevention & control
Non-tuberculous mycobacterium
United Kingdom - epidemiology
Water Microbiology
title Microbiological problems and biofilms associated with Mycobacterium chimaera in heater–cooler units used for cardiopulmonary bypass
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