Mimicking critical environment factors for a static in vitro biofilm formation model on blood-contact implant materials

The prevention of implant infections is a major challenge for implant developers and clinicians. Understanding biofilm dynamics and favorable implant or environmental characteristics will help to prevent biofilm formation. Blood-contact implants, such as cardiovascular implants, are particularly susceptible to infections as the blood provides a favorable growth environment for bacteria due to its rich supply of micro- and macro substances, such as glucose and plasma proteins. In this context, Staphylococcus aureus, Staphylococcus epidermidis and Enterococcus faecalis are the most reported causes accompanying foreign body-associated infections, mainly due to their ability to form an adherent, multilayered bacterial biofilm on a wide variety of surfaces. The present study demonstrates that the provision of glucose and human plasma to the growth medium or coating of the flask with human plasma differentially affects the biofilm formation of these three bacterial species, with human plasma being the most effective regulator. However, glucose supplementation promoted and stabilized biofilm formation of S. aureus and E. faecalis, while an opposite effect was observed for additional plasma. These findings highlight the urgent need to intensify studies on the impact of host soluble factors as risk factors promoting fitness and persistence of bacterial biofilms.