Abstract
Osteomyelitis (OM) is an inflammation of the bone and bone marrow triggered by infectious pathogens which may induce progressive bone destruction. The majority of OM cases, especially the chronic OM cases, are induced by the most prevalent and devastating pathogen Staphylococcus aureus (S. aureus), partially due to its resistance mechanisms against the immune system and antibiotic therapies. Regarding the high rate of morbidity and recurrence in patients, it is pivotal to elucidate underlying mechanisms that how S. aureus enter and survive in hosts. The accumulated discoveries have identified multiple distinct strategies associated with chronicity and recurrence include biofilm development, small colony variants (SCVs), staphylococcus abscess communities (SACs), the osteocyte lacuno-canalicular network invasion (OLCN) of cortical bones, and S. aureus protein A (SpA). Unfortunately, little clinical progress has been achieved for the diagnosis and therapeutic treatment for OM patients, indicating that numerous questions remain to be solved. Therefore, we still have a long way to obtain the clear elucidation of the host-pathogen interactions which could be applied for clinical treatment of OM. In this review, we provide insights of current knowledge about how S. aureus evades immune eradication and remains persistent in hosts with recent discoveries. The common and novel treatment strategies for OM are also described. The purpose of this review is to have in-dept understanding of S. aureus OM and bring new perspectives to therapeutic fields which may be translated to the clinic.