Efficiency and novelty of using environmental swabs for dry-surface biofilm recovery.

Studies on the epidemiology of dry-surface biofilms (DSBs) within healthcare settings have shown an almost universal distribution across frequently touched items. Despite a growing body of evidence for DSBs in hospitals, little attention has been paid to the recovery capacity of techniques used to detect these microbial communities. Biofilms are inherently difficult to remove from surfaces due to adhesive substances within their matrix and may act as sources of infection, but to what extent is largely unknown.

An automated contact model for transmission of dry surface biofilms of Acinetobacter baumannii in healthcare.

Background: Dry surface biofilms (DSBs) have been recognized across environmental and equipment surfaces in hospitals and could explain how microbial contamination can survive for an extended period and may play a key role in the transmission of hospital-acquired infections. Despite little being known on how they form and proliferate in clinical settings, DSB models for disinfectant efficacy testing exist.

Aim: In this study we develop a novel biofilm model to represent formation within hospitals, by emulating patient to surface interactions.

Modelling hospital disinfectant against multi-drug-resistant dry surface biofilms grown under artificial human sweat.

Background: Dry surface biofilms (DSBs) have been found abundantly across hospital surfaces within intensive care units and may explain how nosocomial pathogens can remain virulent and persist on surfaces for extended periods. Testing standards governing the performance of disinfectant products employ planktonic models under routine growth conditions, which are known to be less tolerant than their biofilm counterpart.

Aim: To evaluate biofilm models cultured under artificial human sweat (AHS), a source of nutrient expected on touch surfaces, to assess the antimicrobial performance of common cleaning agents, including a quaternary ammonium, hydrogen peroxide and active chlorine.

Evaluating the efficacy of hydrogen peroxide vapor against a retroviral vector in a gene therapy manufacturing facility.

An evaluation of the efficacy of 35% hydrogen peroxide vapor (HPV) against a novel Simian Immunodeficiency retrovirus (SIV) was conducted in a 624m3 GMP grade C manufacturing facility. SIV biological indicators, with an average titre of 7.11×108 TU/mL [equivalent to 1.

Evaluating the environmental microbiota across four National Health Service hospitals within England.

Hospital surfaces contaminated with microbial soiling, such as dry surface biofilms (DSBs), can act as a reservoir for pathogenic micro-organisms, and inhibit their detection and removal during routine cleaning. Studies have recognized that such increases in bioburden can hinder the impact of disinfectants and mask the detection of potential pathogens. Cleanliness within healthcare settings is often determined through routine culture-based analysis, whereby surfaces that exhibit >2.