Surfaces and fomites as a source of healthcare-associated infections

Abstract

Fomites are inanimate objects in the environment that can become contaminated with pathogenic microorganisms, facilitating their transfer from one patient or surface to another. Understanding how pathogens are spread in the environment and terminating the spread is important for controlling nosocomial outbreaks. Healthcare-associated infections (HAI) are associated with excess morbidity, mortality and healthcare costs 1. The quality of infection control practices, environmental cleaning, understaffing, overcrowding and poor healthcare facility infrastructure are all factors that can affect HAI rates. The true prevalence of HAI may be underestimated by the presence of unrecognised infections. Within any nosocomial environment, surfaces and fomites serve as reservoirs of infection, with healthcare workers acting as vectors for transmission 2. Although bacterial species are the best-studied examples , there is mounting evidence that surfaces can serve as reservoirs for viruses and fungi 3. Microorganism survival on fomites is influenced by intrinsic properties such as the surface porosity and the pathogen's characteristics (for example, non-enveloped viruses remain viable longer on surfaces compared with enveloped viruses) and by extrinsic factors such as environmental temperature and humidity. A person's age, personal habits, type of activities, personal mobility and the level of cleanliness within the surroundings can influence the nature and frequency of contact with contaminated surfaces, and can affect the transfer of pathogens to and from fomites 4. Methicillin-resistant Staphylococcus aureus (MRSA), van-comycin-resistant enterococci (VRE) and Clostridium difficile are examples of some pathogens that have been recovered from contaminated surfaces. Table 1 outlines the environmental contamination , length of survival and evidence of transmission of common nosocomial pathogens. The methodology and quality of evidence in published studies examining environmental contamination rates and their effects on pathogen transmission are highly variable. When interpreting the results of such studies, it is important to address several important issues. First, contamination rates do not necessarily reflect transmission rates. The degree of contamination by specific pathogens warrants careful scrutiny, as colonising organisms may not necessarily be pathogenic. Second, temporality should also be assessed, that is, whether evidence of environmental and/or patient contamination before and/or after contact is clearly assessed. Last, confounding factors including hand hygiene, wearing of personal protective equipment, the cleaning of fomites and/or other interventions should also be examined. In a study of skin and environmental contamination by patients with MRSA, Chang et al. noted that 15 (18%) and 29 (35%) of 83 patients contaminated their surrounding environment with MRSA within 25 and 33 hours, respectively 5. However, the study did not address several key issues including no measurement of baseline contamination rate within rooms prior to patient admission, failure to type MRSA isolates collected from surveillance swabs of the nose, skin and environment in order to assess clonality, and failure to perform surveillance swabs on roommates already colonised with MRSA that may have contaminated the shared room. In contrast, an outbreak of MRSA was successfully terminated by interrupting fomite colonisation through the extensive closure of wards and institution of a cleaning program that included targeted removal of dust from ward surfaces, furniture, floors and medical equipment 6. There were also significant cost benefits by terminating the outbreak: reduced hospital bed-days and unnecessary treatment costs and increased efficiency within the hospital system.