Regenerating bone tissue involves complex, temporal and coordinated signal cascades of which bone morphogenic protein-2 (BMP-2) and vascular endothelial growth factor (VEGF(165)) play a prominent role. The aim of this study was to determine if the delivery of human bone marrow stromal cells (HBMSC) seeded onto VEGF(165)/BMP-2 releasing composite scaffolds could enhance the bone regenerative capability in a critical sized femur defect. Alginate-VEGF(165)/P(DL)LA-BMP-2 scaffolds were fabricated using a supercritical CO(2) mixing technique and an alginate entrapment protocol. Increased release of VEGF(165) (750.4+/-596.8 rho g/ml) compared to BMP-2 (136.9+/-123.4 r hog/ml) was observed after 7-days in culture. Thereafter, up till 28 days, an increased rate of release of BMP-2 compared to VEGF(165) was observed. The alginate-VEGF(165)/P(DL)LA-BMP-2+HBMSC group showed a significant increase in the quantity of regenerated bone compared to the alginate-VEGF(165)/P(DL)LA-BMP-2 and alginate/P(DL)LA groups respectively in a critical sized femur defect study as indices measured by microCT. Histological examination confirmed significant new endochondral bone matrix in the HBMSC seeded alginate-VEGF(165)/P(DL)LA-BMP-2 defect group in comparison to the other groups. These studies demonstrate the ability to deliver a combination of HBMSC with angiogenic and osteogenic factors released from biodegradable scaffold composites enhances the repair and regeneration of critical sized bone defects.
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