Abstract
Abstract
Bone graft granules implanted in bone defects come into physical contact with the host bone and form interconnected porous structure. However, there exists an accidental displacement of granules to unintended locations and leakage of granules from bone defects. Although covering the defect with a barrier membrane prevents granule emanation, this procedure is troublesome. To resolve these problems, we fabricated bioresorbable mesh cages (BMCs) in this study. Bone graft granules composed of carbonate apatite alone (Gr) and bioresorbable mesh cages (BMCs/Gr) introduced the bone graft granules and were implanted into the bone defect in the rabbit femur. Micro-computed tomography and histological analysis were conducted at 4 and 12 weeks after implantation. Osteoprogenitors in the bloodstream from the host bone passed through the pores of BMCs, penetrated the porous structure of graft granules, and might interact with individual granules. Then bone remodeling could progress actively and new bone was formed. The new bone formation was similar to the host bone at 12 weeks and there were minimal signs of local tissue inflammation. BMCs/Gr could reduce the risk of unwanted new bone formation occurring due to loss of granules from the bone defects compared with Gr because BMCs enclosed granules and prevent granules leakage from bone defects and BMCs could not induce unfavorable effects to forme new bone. Additionally, BMCs/Gr could keep specific amounts of granules assembled in one place, avoid displacement of granules to unintended locations, and carry easily. These results demonstrated that BMCs/Gr was effective in bone regeneration and improved clinical handling.
Publisher
Research Square Platform LLC