2008
DOI: 10.2174/157488808786733962
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Tissue Engineered Bone Grafts: Biological Requirements, Tissue Culture and Clinical Relevance

Abstract: The tremendous need for bone tissue in numerous clinical situations and the limited availability of suitable bone grafts are driving the development of tissue engineering approaches to bone repair. In order to engineer viable bone grafts, one needs to understand the mechanisms of native bone development and fracture healing, as these processes should ideally guide the selection of optimal conditions for tissue culture and implantation. Engineered bone grafts have been shown to have capacity for osteogenesis, o… Show more

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Cited by 297 publications
(250 citation statements)
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“…Autologous bone grafts are being used for the repair of large bone defects that occur as a consequence of fracture, tumor, infection and congenital deformity, but harvest of bone for grafting is often associated with donor site morbidity, and only a limited quantity of bone can be used. 3,17 Tissue engineering is considered a promising alternative approach for the repair of bone defects, aiming to restore both the structural integrity and the normal remodeling activity of bone. The development of effective scaffolds is crucial for the successful engineering of new bone tissue.…”
Section: Enhanced Osteoblastogenesis In 3d Gelsmentioning
confidence: 99%
See 1 more Smart Citation
“…Autologous bone grafts are being used for the repair of large bone defects that occur as a consequence of fracture, tumor, infection and congenital deformity, but harvest of bone for grafting is often associated with donor site morbidity, and only a limited quantity of bone can be used. 3,17 Tissue engineering is considered a promising alternative approach for the repair of bone defects, aiming to restore both the structural integrity and the normal remodeling activity of bone. The development of effective scaffolds is crucial for the successful engineering of new bone tissue.…”
Section: Enhanced Osteoblastogenesis In 3d Gelsmentioning
confidence: 99%
“…The scaffolds have to provide an osteoinductive environment for cells to migrate, proliferate, differentiate and promote new bone formation, as well as provide mechanical support during the bone regeneration. 17 Tissue engineering for restoration of bone is also considered for maxillofacial use for the regeneration of alveolar bone after trauma, tumor resection and periodontal infection. 18 A scaffold made of a combination of an absorbable collagen sponge carrier and recombinant human bone morphogenetic protein-2 (INFUSE Bone Graft), which has been shown to induce bone formation, is currently Food and Drug Administration (FDA)-approved as a bone graft substitute.…”
Section: Enhanced Osteoblastogenesis In 3d Gelsmentioning
confidence: 99%
“…Previous research has demonstrated that stem cell transplantation may provide significant therapeutic benefits for various cardiovascular, neurodegenerative and endocrine disorders, as well as other diseases (Yamada et al 2008;Tondreau et al 2008;Ianus et al 2003;Fröhlich et al 2008). To date, however, hematopoietic stem cells (HSCs) derived from adult peripheral blood, adult bone marrow, or umbilical cord blood have been used in human clinical transplantation (Chinen and Buckley 2010).…”
Section: Introductionmentioning
confidence: 99%
“…Bioceramic-collagen scaffolds loaded with human adipose-tissue derived SCs enhanced bone regeneration and reconstruction and also served as appropriate structures in bone regenerative medicine [87]. Furthermore, the combination of biochemical and biophysical stimulatory signals in a three-dimensional setting could potentially enhance the development of mature osteoblasts [88]. A chitosan-gelatin hydrogel containing TGF-β1 was used to promote chondrogenesis, while a polylactic-co-glycolic acid (PLGA) scaffold loading BMP-2 was used to promote osteogenesis [89,90].…”
Section: Increased Differentiation Potentialsmentioning
confidence: 99%