COMPLETE ERADICATION OF BIOFILM FROM ORTHOPAEDIC MATERIALS

Background Periprosthetic joint infection (PJI) is a devastating complication and interest exists in finding lower cost alternatives to current management strategies. Current strategies include a two-stage revision with placement of an antibiotic spacer and delayed placement of a new arthroplasty implant. This study aimed to show that biofilm residue can be reliably eradicated on infected implants, safely allowing re-implantation in a spacer. Methods Strains of Staphylococcus aureus MRSA252 or Staphylococcus epidermidis RP62A were grown on cobalt-chrome discs. For each strain, discs were divided into 5 groups (5 discs each) and exposed to several sterilization and biofilm eradication treatments: (1) autoclave, (2) autoclave + sonication; (3) autoclave + saline scrub; (4) autoclave + 4% chlorhexidine (CHC) scrub; and (5) autoclave + sonication + CHC scrub. Sterilization and biofilm eradication were quantified with crystal violet assays and scanning electron microscopy (SEM). Results Relative to non-treated controls, autoclaving alone reduced biofilm load by 33.9% and 54.7% for MRSA252 and RP62A strains, respectively. On average, the most effective sterilization and biofilm removal treatment was the combined treatment of autoclaving, sonication and CHC-scrub for MRSA252 (100%) and RP62A (99.8%). High resolution SEM revealed no cells or biofilm for this combined treatment. Conclusions Using two commonly encountered bacterial strains in PJI, infected cobalt-chrome implants were sterilized and eradicated of residual biofilm with a combination of autoclaving, sonication and CHC scrubbing. This protocol is time efficient, can be done in the OR and provides a basis for reuse of infected implants as articulating spacers in PJI.