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Título

Evaluation of skeletal tissue repair, Part 1: Assessment of novel growth-factor-releasing hydrogels in an ex vivo chick femur defect model

AutorSmith, E. L.; Kanczler, J. M.; Gothard, D.; Roberts, C. A.; Wells, J. A.; White, L. J.; Qutachi, O.; Sawkins, M. J.; Peto, H.; Rashidi, H.; Rojo, Luis CSIC ORCID; Stevens, M. M.; El Haj, A. J.; Rose, F. R .A. J.; Shakesheff, K.M.; Oreffo, R.O.C.
Palabras claveBioactive growth factor delivery
Embryonic femur
Ex vivo model
Bone repair
ECM hydrogel scaffolds
Fecha de publicación2014
EditorElsevier
CitaciónActa Biomaterialia 10: 4186-4196 (2014)
ResumenCurrent clinical treatments for skeletal conditions resulting in large-scale bone loss include autograft or allograft, both of which have limited effectiveness. In seeking to address bone regeneration, several tissue engineering strategies have come to the fore, including the development of growth factor releasing technologies and appropriate animal models to evaluate repair. Ex vivo models represent a promising alternative to simple in vitro systems or complex, ethically challenging in vivo models. We have developed an ex vivo culture system of whole embryonic chick femora, adapted in this study as a critical size defect model to investigate the effects of novel bone extracellular matrix (bECM) hydrogel scaffolds containing spatio-temporal growth factor-releasing microparticles and skeletal stem cells on bone regeneration, to develop a viable alternative treatment for skeletal degeneration. Alginate/bECM hydrogels combined with poly (D,L-lactic-co-glycolic acid) (PDLLGA)/triblock copolymer (10-30% PDLLGA-PEG-PDLLGA) microparticles releasing VEGF, TGF-β3 or BMP-2 were placed, with human adult Stro-1+ bone marrow stromal cells, into 2 mm central segmental defects in embryonic chick femurs. Alginate/bECM hydrogels loaded with HSA/VEGF or HSA/TGF-β3 demonstrated a cartilage-like phenotype, with minimal collagen I deposition, comparable to HSA-only control hydrogels. The addition of BMP-2 releasing microparticles resulted in enhanced structured bone matrix formation, evidenced by increased Sirius red-stained matrix and collagen expression within hydrogels. This study demonstrates delivery of bioactive growth factors from a novel alginate/bECM hydrogel to augment skeletal tissue formation and the use of an organotypic chick femur defect culture system as a high-throughput test model for scaffold/cell/growth factor therapies for regenerative medicine.
URIhttp://hdl.handle.net/10261/108104
DOI10.1016/j.actbio.2014.06.011
Identificadoresdoi: 10.1016/j.actbio.2014.06.011
issn: 1742-7061
e-issn: 1878-7568
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