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Influence of household contacts on the effectiveness of face masks for preventing influenza in a healthcare setting: a comment on Cowling et al. (2010)

Published online by Cambridge University Press:  07 May 2010

C. J. WILLIAMS*
Affiliation:
Health Protection Agency – Norfolk, Suffolk and Cambridgeshire Health Protection Unit, Norfolk Office, Thetford Community Healthy Living Centre, Thetford, Norfolk, UK
U. BUCHHOLZ
Affiliation:
Department for Infectious Disease Epidemiology, Robert Koch Institute, Berlin, Germany
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Abstract

Type
Correspondence
Copyright
Copyright © Cambridge University Press 2010

To the Editor:

In their recent review of face-mask use to prevent influenza infection Cowling et al. [Reference Cowling1] found little evidence that face masks prevent influenza infection in healthcare settings. Of the healthcare-setting studies presented, only 2/6 showed some evidence of effectiveness, with three of the four community studies finding some evidence that masks (alone or in conjunction with hand-washing) were protective.

Demonstrating the effectiveness of respiratory protective equipment in healthcare settings is complicated by the potential for additional exposures to infectious individuals when at home. The risk of infection in households with an infectious influenza patient is high, with recorded secondary attack rates between 6% and 38% [Reference Cowling2, Reference Carrat3], and a significantly increased risk for transmission when the patient is a child [Reference Viboud4]. The review did not document whether the studies had allowed for this influence.

One of the studies cited was a randomized controlled trial, which did not find a statistically significant difference in overall attack rates in healthcare workers (HCWs) who at work used N95 or surgical masks, respectively [Reference Loeb5]. Despite apparent good adherence, attack rates were high (23·6% vs. 22·9%), which the authors attributed to repeated exposures, presumably in the hospital. Over 20% of participants in either group had reported exposure to a spouse or room-mate with influenza-like illness, with similar exposure prevalence in both intervention groups. While stating that household exposure was ‘balanced’ Cowling et al. further noted that ‘it is impossible to determine whether participants acquired influenza due to hospital or community exposure’.

We have recently published a comparison of influenza risk in HCWs with non-HCWs, and found that attack rates (as determined serologically) during the influenza season did not differ between groups [Reference Williams6]. Instead the influenza risk to HCWs was influenced more by their household contacts than their occupation. People living with children were at significantly increased risk, and those living with three or more children had a higher risk for infection than those with one or two. This is in line with the findings of another of the papers cited in the review, a randomized controlled trial of mask use in HCWs, where living with children was the only significant risk factor for reported cold symptoms [Reference Jacobs7].

Hospital contacts are usually time-limited and should involve proper infection control precautions, whereas household contacts, especially where the care of an infectious child is involved, are usually unprotected and prolonged. It is therefore quite plausible that household risk factors may exceed those in the hospital setting. Therefore, in studies of the effectiveness of personal protective equipment in healthcare settings, any real protective effect against respiratory viruses is at risk of being diluted by the period spent unprotected in the household, which might account for the lack of effect seen in most of the healthcare studies in Cowling et al.'s review.

Because of the competing infection risk from the community it is important that studies investigating risks and prevention measures in the healthcare setting are conducted in situations where the infection pressure is substantially higher than in the community, or make some attempt to limit or control for community exposure. This may be the case in defined outbreak situations, or when – for example through the type of work, such as conducting aerosol-generating procedures – infection risk at the work site of the HCW substantially exceeds community risk.

Declaration of Interest

None.

The authors reply

We thank Williams et al. for making some very useful points. We fully agree with their observation that substantial risk of infection outside the workplace is likely to complicate studies of the effectiveness of masks and other protective equipment in healthcare settings. It would be very important for further studies to be carefully designed to address this, for example by explicitly incorporating household contacts in a study, extending interventions to the home setting in addition to the workplace, or by measuring the amount of time spent at home vs. at work and the number of contacts in each setting that could lead to transmission. Nevertheless, healthcare workers typically spend a significant part of their waking day at the workplace, and similar home exposures may not completely account for the lack of difference between N95 and surgical masks observed in a previous study [Reference Loeb1].

References

1.Cowling, BJ, et al. Face masks to prevent transmission of influenza virus: a systematic review. Epidemiology and Infection 2010; 138: 449456.CrossRefGoogle ScholarPubMed
2.Cowling, BJ, et al. Preliminary findings of a randomized trial of non-pharmaceutical interventions to prevent influenza transmission in households. PLoS ONE 2008; 3(5): e2101.CrossRefGoogle ScholarPubMed
3.Carrat, F, et al. Influenza burden of illness: estimates from a national prospective survey of household contacts in France. Archives of Internal Medicine 2002; 162: 18421848.CrossRefGoogle ScholarPubMed
4.Viboud, C, et al. Risk factors of influenza transmission in households. British Journal of General Practice 2004; 54: 684689.Google ScholarPubMed
5.Loeb, M, et al. Surgical mask vs N95 respirator for preventing influenza among health care workers: a randomized trial. Journal of American Medical Association 2009; 302: 18651871.CrossRefGoogle ScholarPubMed
6.Williams, CJ, et al. Seasonal influenza risk in hospital healthcare workers is more strongly associated with household than occupational exposures: results from a prospective cohort study in Berlin, Germany, 2006/07. BMC Infectious Diseases 2010; 10: 8.CrossRefGoogle ScholarPubMed
7.Jacobs, JL, et al. Use of surgical face masks to reduce the incidence of the common cold among health care workers in Japan: a randomized controlled trial. American Journal of Infection Control 2009; 37: 417419.CrossRefGoogle ScholarPubMed