Therapeutic effect of local administration of low-dose simvastatin-conjugated gelatin hydrogel for fracture healing

Abstract

Several reports have shown the therapeutic effect of statins on bone formation and neovascularization. However, the effect of the systemic administration of statins is limited due to its metabolism in the liver and clearance in the digestive system. In addition, high-dose administration may cause adverse side effects. To avoid low-efficacy/frequent side effects of high-dose statin treatment, we utilized biodegradable gelatin hydrogel as a drug delivery system of statin for fracture healing. A femoral fracture was created in rats with periosteum cauterization leading to nonunion at 8 weeks postfracture. Rats received local administration of either simvastatin-conjugated gelatin hydrogel (ST-Gel group) or gelatin hydrogel alone (Gel group). Approximately 70% of animals in the ST-Gel group achieved fracture union radiographically and histologically, while only 7% of animals achieved fracture healing in the Gel group. Functional bone healing was also significantly greater with increased angiogenesis- and osteogenesis-related growth factor expressions in periosteal granulation tissue in the ST-Gel group than in the Gel group. Simvastatin locally applied with gelatin hydrogel to fracture sites at a dose similar to that used in clinical settings successfully induced fracture union in a rat unhealing bone fracture model via its effect on both angiogenesis and osteogenesis.