Enhancement of bone formation by BMP-7 transduced MSCs on biomimetic nano-hydroxyapatite/polyamide composite scaffolds in repair of mandibular defects.

This study was to evaluate enhanced bone formation by bone morphogenetic protein-7 (BMP-7) transduced MSCs on nano-hydroxyapatite/polyamide (n-HA/PA) composite scaffolds for bone tissue engineering in repair of mandibular defect. n-HA/PA scaffolds were prepared and rabbit MSCs were separated and expanded; and then infected with adenoviral-mediated BMP-7 in vitro. The MSCs-BMP-7 and MSCs were seeded on the porous scaffolds. Scaffold/MSCs-BMP-7 constructs and scaffold/MSCs constructs were implanted in the defects of rabbits' mandible as the experimental groups A (n = 18) and groups B (n = 18), respectively, the pure scaffolds were implanted as controls (group C, n = 18). Six animals were sacrificed at 4-, 8-, and 16-week postimplantation, respectively. Their mandibles were removed and processed for radiographic, biomechanical tests, histological, and histomorphometric analysis. Group A animals showed greater bone formation and earlier mineralization than group B at 4- and 8-week postimplantation and similarly group B more than group C. However, no difference was found among three groups at 16-week postimplantation. The results of this study suggest that BMP-7 transduced MSCs-n-HA/PA composite could significantly accelerate bone formation in the implant at early stage. BMP-7 mediated ex vivo gene transfer based on MSCs as seed cells, combined with porous n-HA/PA as scaffolds for bone tissue engineering might be an alternative or supplemental approach to repair the mandibular defects.