Application of femoral nail, reconstruction locked plate and bone morphogenic protein - 7 in an osteopetrosis patient with a recurrent femoral shaft fracture: A case report.

INTRODUCTION AND IMPORTANCE: Femoral fractures are common in the patients with osteopetrosis and multiple treatment strategies have been described with varying results. However, there is a paucity of literature describing the treatment of recurrent fractures and subsequent deformity. CASE PRESENTATION: We present detailed revision strategies and long-term follow-up results of a patient with osteopetrosis who suffered unsuccessful operative treatment using the plate-screw system (recurrent femoral shaft fracture and implant failure). CLINICAL DISCUSSION: The success of revision surgery of osteopetrosis is based on good preoperative planning, appropriate selection of fixation methods, and a meticulous approach during surgery. The combined application of the expert adolescent lateral femoral nail, the reconstruction locked plate, and bone morphogenic protein (BMP)-7 in this patient achieved good clinical results. CONCLUSION: In the treatment of failed plated and recurrent osteopetrotic femoral shaft fractures, the combination of nails and plating presents an alternative, potentially more successful, revision strategy.

Methylprednisolone microsphere sustained-release membrane inhibits scar formation at the site of peripheral nerve lesion.

Corticosteroids are widely used for the treatment of acute central nervous system injury. However, their bioactivity is limited by their short half-life. Sustained release of glucocorticoids can prolong their efficacy and inhibit scar formation at the site of nerve injury. In the present study, we wrapped the anastomotic ends of the rat sciatic nerve with a methylprednisolone sustained-release membrane. Compared with methylprednisone alone or methylprednisone microspheres, the methylprednisolone microsphere sustained-release membrane reduced tissue adhesion and inhibited scar tissue formation at the site of anastomosis. It also increased sciatic nerve function index and the thickness of the myelin sheath. Our findings show that the methylprednisolone microsphere sustained-release membrane effectively inhibits scar formation at the site of anastomosis of the peripheral nerve, thereby promoting nerve regeneration.