Aim

Leading etiology of Bone and Join infections (BJI), Staphylococcus aureus (SA) is responsible for difficult-to-treat infections mainly because of three persistence factors: (i) biofilm formation, (ii) persistence within bone cells and (iii) switch to the small colony variant (SCV) phenotype. The impact of rifampin on these mechanisms gave it a prominent place in orthopedic device-associated BJI. However, resistance emergence, intolerance and drug interactions cause significant concerns. In this context, other rifamycins – namely rifapentine and rifabutin – have poorly been evaluated, particularly toward their ability to eradicate biofilm-embedded and intracellular reservoirs of SA.

Aim

Staphylococcus aureus (SA) chronic bone and joint infections (BJI) are characterized by a progressive destruction of bone tissue associated to SA persistence which results in a large number of relapses (10–20%). The main factors proposed for these failures are: i) a weak diffusion of antibiotics in bone tissue, ii) formation of biofilm, iii) the bacterial internalization by the cells responsible for bone mineralization, namely the osteoblasts (OB).

Our in vitro and in vivo work aimed at providing new information on the impact of SA, more specifically of internalized SA, on bone homeostasis.