Abstract
Musculoskeletal conditions, including arthritis, back pain, and skeletal injuries/trauma, affect 50 % of the adult population in the U.S.A., and account for the second greatest cause of disability worldwide (www.bjdonline.org). The aggregate total annual cost of musculoskeletal diseases was $796 billion in 2011. While most musculoskeletal injuries and diseases have lowmortality, they have a tremendous impact of quality of life and morbidity. Biomaterials have a long history in orthopedics—metal and plastic implants have been used over the last 60 years to treat end-stage joint degeneration and skeletal tissue loss, and alleviate the resulting pain and disability. First-generation orthopedic implants were designed to be biologically inert and selected primarily for their mechanical properties. However, they do not replicate the function of normal tissue and have a limited life span in the body, which is especially problematic in younger patients. Recent decades have focused on the development of biomaterials that are biodegradable and incorporate tissue-specific physicochemical cues to guide cell processes and tissue morphogenesis, with the goal of restoring natural tissue structure and function. These advances in biomaterials provide critical enabling technologies for the delivery of stem cells, gene therapies, and new biologics in the orthopedic field. This special issue highlights the recent advances and future directions in orthopedic biomaterials and drug delivery systems, and showcases emerging pharmaceutical and regenerative approaches to treat injuries, diseases, and disorders of the musculoskeletal system. Non-union bone fractures are a significant clinical challenge, and bone tissue engineering could have a key impact in improving current clinical options. Telvin et al. review the application of stem cells from various sources towards bone tissue engineering. The ability of transplanted stem cells to survive, continue to differentiate, and form bone tissue is key to making stem cell-mediated bone tissue regeneration approaches successful. The research article by Wen et al. precisely address this challenge. Their study compares the in vivo bone tissue forming ability of human bone marrow derived stem cells and human embryonic stem cells using osteoinductive mineralized materials as a scaffold. The article by Nyberg et al. reviews progress and challenges in achieving precise temporal and spatial control of growth factor presentation for functional bone tissue engineering ex vivo and in vivo. Ultimately, successful bone regeneration requires integration between the repair and native bone tissue. Botchway and colleagues address this critical issue, by modifying the surface of a bone allograft with FTY720, a synthetic analog of sphingosine 1-phosphate, to promote endogenous bone formation and osseous integration at the interface. Another key hurdle for the success of bone tissue engineering is vascularization in vivo. The review by Garcia and Garcia summarizes the current strategies and new developments targeted at vascularization of engineered bone, including growth factor and cell delivery, gene therapy, biomaterials, and combination approaches. The article by Tonello et al. demonstrates the potential of human placental matrix for promoting angiogenesis and its controlled release from biodegradable microparticles. In addition to bone, this special issue contains articles that highlight advances in cartilage tissue regeneration and osteoarthritis (OA) therapies. Osteoarthritis is the leading cause of * Blanka Sharma blanka.sharma@bme.ufl.edu
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