Cell-based therapies for regenerating bone
- PMID: 24436510
- PMCID: PMC3891509
Cell-based therapies for regenerating bone
Abstract
Cellular therapies to replenish bone lost due to acquired conditions such as trauma, infection, tumor, periprosthetic osteolysis and other etiologies have become widespread. Traditional, open, surgical bone grafting techniques have given way to newer cellular therapies that are potentially less invasive and have a lower complication rate and faster recovery time. These new technologies include bone marrow harvesting with concentration of osteoprogenitor cells with/without cell culture, scaffolds which are both osteoconductive and osteoinductive, attempts to facilitate mesenchymal stem cell and osteoprogenitor cell homing both locally and systemically, genetic engineering of specialized stem cells, and the use of potentially immune-privileged fetal and other types of stem cells. Some of these techniques have already been introduced into the orthopaedic clinic, whereas others are still in the pre-clinical testing phase. Given the limited supply of autologous graft, these new techniques will have a dramatic impact on bone regeneration in the future.
Keywords: Bone regeneration; Fracture healing; Mesenchymal stromal cells; Tissue engineering.
Conflict of interest statement
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References
-
- Hernandez CJ, Beaupre GS, Carter DR. A model of mechanobiologic and metabolic influences on bone adaptation. J Rehabil Res Dev. 2000;37:235–244. - PubMed
-
- Carter DR, Beaupre GS, Giori NJ, Helms JA. Mechanobiology of skeletal regeneration. Clin Orthop Relat Res. 1998:S41–S55. - PubMed
-
- Caplan AI. Mesenchymal stem cells. J Orthop Res. 1991;9:641–650. - PubMed
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