In vitro multispecies Lubbock chronic wound biofilm model.

ABSTRACT

Multispecies biofilms are becoming increasingly recognized as the naturally occurring state in which bacteria reside. One of the primary health issues that is now recognized to be exacerbated by biofilms are chronic, nonhealing wounds such as venous leg ulcers, diabetic foot ulcers, and pressure ulcers. Arguably three of the most important species associated with multispecies biofilms that our group sees clinically are Pseudomonas aeruginosa, Enterococcus faecalis, and Staphylococcus aureus. This study was conducted to address the need for a chronic pathogenic biofilm laboratory model that allows for cooperative growth of these three organisms. We have developed a novel media formulation, simple laboratory system, quantitative polymerase chain reaction for monitoring population dynamics, and methods for objectively and subjectively measuring biofilm formation. The Lubbock chronic wound pathogenic biofilm withstood treatment with a 50-fold higher concentration of bleach than that which was completely bacteriocidal for fully turbid planktonic cultures. The Lubbock chronic wound pathogenic biofilm when treated with biofilm effectors such as gallium nitrate and triclosan responded with selective inhibition of Pseudomonas aeruginosa or Staphylococcus aureus, respectively, as has been reported in the literature. The ability of this 24-hour model to react as predicted using known biofilm effectors suggests that it will lend itself to future work in the development and testing of first-generation chronic wounds pathogenic biofilm therapeutics. We have defined a realistic in vitro multispecies biofilm model simulating the functional characteristics of chronic pathogenic biofilms and developed effective tools for its characterization and analyses.