Toward an improved in vitro model of prosthetic joint infection for Staphylococcus aureus biofilm characterization
Yasser Dghoughi, Jennifer Varin-Simon, Sophie C. Gangloff, Marius Colin, Fany Reffuveille

TL;DR
This paper develops an improved in vitro model to study Staphylococcus aureus biofilms on prosthetic joints, aiming to better understand and treat chronic infections.
Contribution
The study introduces a novel in vitro model that simulates physiological conditions for Staphylococcus aureus biofilm formation in prosthetic joint infections.
Findings
A mature biofilm was achieved after 72 hours with a modified Bone-Like Environment (BLE+) medium.
The model revealed differences in biofilm characteristics between USA300 (MRSA) and SH1000 (MSSA) strains.
Oxygen concentration significantly impacts biofilm formation, highlighting the need for physiological conditions in mimetic models.
Abstract
Biofilm formation on orthopedic implants is often implicated in chronic prosthetic and joint infections (PJI) that are complex to manage. To date, no current bacterial in vitro model can fully simulate the PJI environment leading to a lack of knowledge to develop diagnosis tool and adapted treatment. Our project aims to set up an innovative in vitro model to characterize Staphylococcus aureus clinical strains biofilms in a PJI context, focusing on several parameters: culture media, incubation time, atmospheric conditions and support for biofilm growth. Biofilm formation was evaluated in various culture media, by counting both planktonic and adherent bacteria (CFU) and quantifying biofilm biomass using crystal violet staining. A mature biofilm was obtained after 72 h of incubation with a similar proportion of planktonic and adherent bacteria whereas a variable dispersion was observed at…
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Taxonomy
TopicsBacterial biofilms and quorum sensing · Orthopedic Infections and Treatments · Antimicrobial Resistance in Staphylococcus
