To describe barriers and facilitators to the adoption of recommended infection prevention and control (IPC) practices among healthcare workers (HCWs).

A qualitative research design was used. Individual semistructured interviews with HCWs and observations of clinical practices were conducted from February to May 2018 in 8 care units of 2 large tertiary-care hospitals in Montreal (Québec, Canada).

We interviewed 13 managers, 4 nurses, 2 physicians, 3 housekeepers, and 2 medical laboratory technologists. We conducted 7 observations by following IPC nurses (n = 3), nurses (n = 2), or patient attendants (n = 2) in their work routines. Barriers to IPC adoption were related to the context of care, workplace environment issues, and communication issues. The main facilitator of the IPC adoption by HCWs was the “development of an IPC culture or safety culture.” The “IPC culture” relied upon leadership support by managers committed to IPC, shared belief in the importance of IPC measures to limit healthcare-associated infections (HAIs), collaboration and good communication among staff, as well as proactivity and ownership of IPC measures (ie, development of local solutions to reduce HAIs and “working together” toward common goals).

Adoption of recommended IPC measures by HCWs is strongly influenced by the “IPC culture.” The IPC culture was not uniform within hospital and differences in IPC culture were identified between care units.

To perform a post-outbreak prospective study of the Pseudomonas aeruginosa contamination at the faucets (water, aerator and drain) by culture and quantitative polymerase chain reaction (qPCR) and to assess environmental factors influencing occurrence

A 450-bed pediatric university hospital in Montreal, Canada

Water, aerator swab, and drain swab samples were collected from faucets and analyzed by culture and qPCR for the post-outbreak investigation. Water microbial and physicochemical parameters were measured, and a detailed characterization of the sink environmental and design parameters was performed.

The outbreak genotyping investigation identified drains and aerators as the source of infection. The implementation of corrective measures was effective, but post-outbreak sampling using qPCR revealed 50% positivity for P. aeruginosa remaining in the water compared with 7% by culture. P. aeruginosa was recovered in the water, the aerator, and the drain in 21% of sinks. Drain alignment vs the faucet and water microbial quality were significant factors associated with water positivity, whereas P. aeruginosa load in the water was an average of 2 log higher for faucets with a positive aerator.

P. aeruginosa contamination in various components of sink environments was still detected several years after the resolution of an outbreak in a pediatric university hospital. Although contamination is often not detectable in water samples by culture, P. aeruginosa is present and can recover its culturability under favorable conditions. The importance of having clear maintenance protocols for water systems, including the drainage components, is highlighted.

Infect. Control Hosp. Epidemiol. 2015;36(11):1283–1291