Abstract
Chronic osteomyelitis (OM) is a progressive, inflammatory infection of bone caused predominantly by S. aureus and requires treatment through surgical debridement and systemic antibiotic administration. We have previously reported the fabrication of an antibiotic-eluting scaffold which is responsive to microbial activity for the treatment of OM. Herein, we ventured to assess the capacity of this antibiotic-eluting scaffold to treat infection in a rabbit model of chronic OM. Infections were established in the radii of New Zealand White rabbits using inoculations of 2×106 CFUs S. aureus JAR 060131 over a period of 4 weeks. Following surgical debridement (6mm), rabbits underwent treatment for a period of 8 weeks until euthanasia. The treatment groups were; 1) empty, 2) antibiotic-eluting scaffold (collagen/hydroxyapatite scaffold loaded with vancomycin) and 3) commercially available antibiotic-eluting fleece (Septocoll E®, collagen fleece loaded with gentamicin). During the treatment period, all groups received systemic antibiotics (Cefazolin 25mg/kg) administered subcutaneously twice daily for 4 weeks. Inoculation of the radius resulted in the development of a sequestrum containing S. aureus, demonstrating the successful establishment of OM. After the 8-week treatment period, 4/5 rabbits in the empty group were still infected, indicating that systemic antibiotic administration following debridement was insufficient to treat the infection. Fewer rabbits in both the antibiotic-eluting scaffold group (2/4) and the antibiotic-eluting fleece group (1/3) were infected. This work demonstrates that the implantation of an antibiotic-eluting biomaterial into a defect following debridement enhances bacterial clearance in conditions of chronic OM.
