Staphylococcus aureus Evasion of Host Immunity in the Setting of Prosthetic Joint Infection: Biofilm and Beyond
BF Ricciardi, G Muthukrishnan, E Masters… - Current reviews in …, 2018 - Springer
Current reviews in musculoskeletal medicine, 2018•Springer
Abstract Purpose of Review The incidence of complications from prosthetic joint infection
(PJI) is increasing, and treatment failure remains high. We review the current literature with a
focus on Staphylococcus aureus pathogenesis and biofilm, as well as treatment challenges,
and novel therapeutic strategies. Recent Findings S. aureus biofilm creates a favorable
environment that increases antibiotic resistance, impairs host immunity, and increases
tolerance to nutritional deprivation. Secreted proteins from bacterial cells within the biofilm …
(PJI) is increasing, and treatment failure remains high. We review the current literature with a
focus on Staphylococcus aureus pathogenesis and biofilm, as well as treatment challenges,
and novel therapeutic strategies. Recent Findings S. aureus biofilm creates a favorable
environment that increases antibiotic resistance, impairs host immunity, and increases
tolerance to nutritional deprivation. Secreted proteins from bacterial cells within the biofilm …
Purpose of Review
The incidence of complications from prosthetic joint infection (PJI) is increasing, and treatment failure remains high. We review the current literature with a focus on Staphylococcus aureus pathogenesis and biofilm, as well as treatment challenges, and novel therapeutic strategies.
Recent Findings
S. aureus biofilm creates a favorable environment that increases antibiotic resistance, impairs host immunity, and increases tolerance to nutritional deprivation. Secreted proteins from bacterial cells within the biofilm and the quorum-sensing agr system contribute to immune evasion. Additional immunoevasive properties of S. aureus include the formation of staphylococcal abscess communities (SACs) and canalicular invasion. Novel approaches to target biofilm and increase resistance to implant colonization include novel antibiotic therapy, immunotherapy, and local implant treatments.
Summary
Challenges remain given the diverse mechanisms developed by S. aureus to alter the host immune responses. Further understanding of these processes should provide novel therapeutic mechanisms to enhance eradication after PJI.
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