Infections of bone usually require multiple surgery and prolonged periods of treatment. One reason for problems is found in the presence of stationary phase bacteria embedded in biofilms that show increased resistance against conventional antibiotic therapy (up to 1000x MIC). Biofilms adhere to surfaces of avital material making radical debridement a prerequisite for cure. Osseous defects are common in such conditions and need to be addressed. To avoid re-infection high local antbiotic concentrations are necessary. Allograft bone may be impregnated with high loads of antibiotics using a special incubation technique. The resulting antibiotic bone compound (ABC) provides high and long lasting concentrations at the site of infection and is likely to restore bone stock simultaneously. Based on this technology we have developed a new surgical technique. 42 patients (10–67yrs) with chronic osteitis were included into a prospective study using a standardized protocol. Infection was at the humerus (1x), femur (10x), tibia (29x) or femur+tibia (2x), respectively. Treatment consisted of removal of foreign material, radical sequestrectomy and soft-tissue debridement followed by pressurized lavage. Surfaces of sclerotic bone were trimmed down to vital areas. The remaining osseous defects were filled with ABC, using an impaction technique resulting in complete dead space management. The allograft was impregnated with vancomycin, in cases with mixed pathogens combinations with tobramycin were used. Internal fixation was performed the same time whenever applicable. Sites were drained and closed immediately; rehabilitation did not differ from uninfected procedures.Aims
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