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Short AR, Koralla D, Deshmukh A, et al. Hydrogels That Allow and Facilitate Bone Repair, Remodeling, and Regeneration. J Mater Chem B. 2015;3(40):7818-7830doi: 10.1039/C5TB01043H.
Short, A. R., Koralla, D., Deshmukh, A., Wissel, B., Stocker, B., Calhoun, M., Dean, D., & Winter, J. O. (2015). Hydrogels That Allow and Facilitate Bone Repair, Remodeling, and Regeneration. Journal of materials chemistry. B, 3(40), 7818-7830. https://doi.org/10.1039/C5TB01043H
Short, Aaron R, et al. "Hydrogels That Allow and Facilitate Bone Repair, Remodeling, and Regeneration." Journal of materials chemistry. B vol. 3,40 (2015): 7818-7830. doi: https://doi.org/10.1039/C5TB01043H
Short AR, Koralla D, Deshmukh A, Wissel B, Stocker B, Calhoun M, Dean D, Winter JO. Hydrogels That Allow and Facilitate Bone Repair, Remodeling, and Regeneration. J Mater Chem B. 2015 Oct 28;3(40):7818-7830. doi: 10.1039/C5TB01043H. Epub 2015 Sep 03. PMID: 26693013; PMCID: PMC4675359.
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J Mater Chem B. 2015 Oct 28;3(40):7818-7830. doi: 10.1039/C5TB01043H. Epub 2015 Sep 03.

Hydrogels That Allow and Facilitate Bone Repair, Remodeling, and Regeneration.

Journal of materials chemistry. B

Aaron R Short, Deepthi Koralla, Ameya Deshmukh, Benjamin Wissel, Benjamin Stocker, Mark Calhoun, David Dean, Jessica O Winter

Affiliations

  1. Department of Biomedical Engineering, The Ohio State University, Columbus, Ohio, USA.
  2. William G. Lowrie Department of Chemical and Biomolecular Engineering, The Ohio State University, Columbus, Ohio, USA.
  3. Department of Chemistry and Biochemistry, The Ohio State University, Columbus, Ohio, USA.
  4. Department of Plastic Surgery, The Ohio State University, Columbus, Ohio, USA.
  5. Department of Biomedical Engineering, The Ohio State University, Columbus, Ohio, USA ; William G. Lowrie Department of Chemical and Biomolecular Engineering, The Ohio State University, Columbus, Ohio, USA.

PMID: 26693013 PMCID: PMC4675359 DOI: 10.1039/C5TB01043H

Abstract

Bone defects can originate from a variety of causes, including trauma, cancer, congenital deformity, and surgical reconstruction. Success of the current "gold standard" treatment (i.e., autologous bone grafts) is greatly influenced by insufficient or inappropriate bone stock. There is thus a critical need for the development of new, engineered materials for bone repair. This review describes the use of natural and synthetic hydrogels as scaffolds for bone tissue engineering. We discuss many of the advantages that hydrogels offer as bone repair materials, including their potential for osteoconductivity, biodegradability, controlled growth factor release, and cell encapsulation. We also discuss the use of hydrogels in composite devices with metals, ceramics, or polymers. These composites are useful because of the low mechanical moduli of hydrogels. Finally, the potential for thermosetting and photo-cross-linked hydrogels as three-dimensionally (3D) printed, patient-specific devices is highlighted. Three-dimensional printing enables controlled spatial distribution of scaffold materials, cells, and growth factors. Hydrogels, especially natural hydrogels present in bone matrix, have great potential to augment existing bone tissue engineering devices for the treatment of critical size bone defects.

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