Method

Cement beads were aseptically prepared using Palacos R (plain 40g PMMA cement) or Palacos R+G (40g PMMA cement containing industrially added 0.5g of gentamicin), with or without supplementary antibiotics as follows: Palacos R; Palacos R+G; Palacos R plus 1g / 2g daptomycin; Palacos R+G plus 1g / 2g of daptomycin; Palacos R plus 1g / 2g vancomcyin; and Palacos R+G plus 1g / 2g vancomycin. After production, each antibiotic loaded acrylic cement (ALAC) combination was allocated into two groups (group 1 and 2).

The group 2 cement beads were initially eluted in broth at 37^o C for 72hours then transferred to fresh broth containing a known concentration of bacteria. The group 1 samples were not eluted but directly immerse in culture broth containing bacteria. All samples were thereafter incubated at 37^oC for 24 hours. After incubation, group 1 samples were visually assessed for bacterial growth, while for the group 2 samples, biofilm formation were quantified using ultrasonication and viable bacteria counting technique. Three proficient biofilm forming Staphylococcus epidermidis bacterial strains (1457, 1585-RA and 5179-R1) were used for all experiments and the bacteria counts were expressed as colony forming units / ml (CFU/ml).

Introduction

Prosthetic joint infection (PJI) is a potentially devastating complication in arthroplasty. Biofilm formation is central to PJI offering protection to the contained bacteria against host defence system and antimicrobials. Orthopaedic biomaterials generally have a proclivity to biofilm colonisation. Conventional culture technique has a low sensitivity for detecting bacteria in biofilm. Sonication can disrupt bacteria biofilms aggregations and dislodge them from colonised surfaces, rendering them culturable and consequently improve the diagnosis of otherwise culture-negative PJI. We investigated the effect of ultrasonication on biofilms adherent to poylmethylmethacrylate PMMA cement.