Abstract
Evaluation of the effectiveness of biodegradable bone substitute with high doses of antibiotics in cavitary osteomyelitis and infected nonunions.
The authors evaluated 8 cases, 5 of them related to osteomyelitis with bone sequestration and other 3 regarding infected nonunions. All of them had in common the persistence of infection after antibiotic therapy.
All infections were confirmed by microbiological studies. In all cases the surgeons conducted a thorough surgical debridement and filling of bone defects with Herafill®. Later a tight clinical, analytical and imagiological control was performed.
Five of the cases were a success with simultaneous healing of the bone loss and treatment of the infection. These corresponded to the cases of cavitary osteomyelitis. In the remaining 3 cases, despite infection eradication, union was not achieved and additional surgical procedures were required for definitive treatment of nonunion.
In the treatment of bone infection, use of high doses of antibiotics at the site is a consensus as it allows eradication of the infection with lower systemic effects. With the emergence of biodegradable bone substitutes, the need for a new surgical intervention for their removal can be avoided. Properties of calcium sulfate and calcium carbonate stimulate osteogenesis at the site, allowing their absorption and replacement by bone matrix. These properties make them ideal to usage in cases of cavitary bone defects.
Our experience supports the idea that the use of high doses of antibiotics locally permits remission of the infection. However, when this is implemented through a bone substitute, it is possible to achieve osteogenesis in bony cavities. Nevertheless, when applied to infected nonunions, their role seems to be limited to the eradication of the infection.