Debridement Tools, Disrupting Biofilms and the Potential for Inadvertent Bacterial Transfer
Sellars, L, Westgate S J and Rippon, M.
Bacteria within wounds can persist within a biofilm. Once established biofilms can be difficult to eradicate and can delay wound healing. Appropriate wound healing can be encouraged by the removal of non-viable tissue and bacterial biofilm material, utilising a non-surgical method such as a debridement tool. Whilst non-surgical debridement tools have been shown to break up biofilm material there is also a potential for bacterial transfer across the wound surface. This pilot study investigates the potential for transfer of disrupted biofilm material across the wound bed.
To determine if two wound care debridement tools transfer bacteria to sterile skin following disruption of a biofilm.
Following treatment with the two debridement tools and the gauze control, confluent growth was observed on the contact plates that were used to sample the initial inoculated porcine skin sample, and the 3 consecutive samples which had been sterile prior to wiping. There was no obvious reduction in the level of bacteria transferred from the debridement tool to the porcine skin throughout subsequent wipes however direct quantification was not carried out.
Evidence demonstrates that debridement tools are able to disrupt established biofilms however the data presented here also demonstrates the potential of these tools to transfer bacteria to previously uncontaminated areas of skin. Chronic wounds contain at ‘risk areas’ that can rapidly break down if they become infected. The potential transfer of bacteria possessing a biofilm phenotype to an ‘at risk’ area of the wound is concerning. Additional experiments are planned to investigate the inclusion of antimicrobials within the treatment protocol, in order to further mimic a chronic wound treatment scenario.
Debridement tools can disrupt and remove non-viable tissue and encourage wound healing, however there is also potential for biofilm material to be redistributed around the wound rather than being removed from the wound bed.
Further work in this area may inform changes in guidance for use of debridement tools, with the aim of minimising the risk of bacterial transfer across the wound bed.