Biological Interactions on Materials Surfaces: Understanding by David Richard Schmidt, Heather Waldeck (auth.), David A.

By David Richard Schmidt, Heather Waldeck (auth.), David A. Puleo, Rena Bizios (eds.)

Success or failure of biomaterials, even if tissue engineered constructs, joint and dental implants, vascular grafts, or center valves, relies on molecular-level occasions that make certain next responses of cells and tissues. This ebook provides the most recent advancements and state of the art wisdom concerning protein, phone, and tissue interactions with either traditional and nanophase fabrics. perception into those biomaterial floor interactions will play a serious function in extra advancements in fields akin to tissue engineering, regenerative medication, and biocompatibility of implanted fabrics and units. With chapters written by means of leaders of their respective fields, this compendium stands out as the authoritative resource of data for scientists, engineers, and scientific researchers looking not just to appreciate but additionally to manage tissue-biomaterial interactions.

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Extra info for Biological Interactions on Materials Surfaces: Understanding and Controlling Protein, Cell, and Tissue Responses

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Spatial control of protein within biomimetically nucleated mineral. Biomaterials 2006;27(7):1175–1186. 44. Massia SP, Hubbell JA. Covalent surface immobilization of Arg-Gly-Asp- and Tyr-Ile-Gly-Ser-Arg-containing peptides to obtain well-defined cell-adhesive substrates. Analytical Biochemistry 1990;187(2):292–301. 45. Shin H, Jo S, Mikos AG. Biomimetic materials for tissue engineering. Biomaterials 2003;24(24):4353–4364. 46. Garcia AJ. Get a grip: integrins in cell-biomaterial interactions. Biomaterials 2005;26(36):7525–7529.

105. Zhang J, Spring H, Schwab M. Neuroblastoma tumor cell-binding peptides identified through random peptide phage display. Cancer Letters 2001;171(2):153–164. 106. Uchiyama F, Tanaka Y, Minari Y, Toku N. Designing scaffolds of peptides for phage display libraries. Journal of Bioscience and Bioengineering 2005;99(5):448–456. 107. Marks C, Marks JD. Phage libraries – a new route to clinically useful antibodies. The New England Journal of Medicine 1996;335(10):730–733. 108. Scott JK, Smith GP. Searching for peptide ligands with an epitope library.

Shin K, Jayasuriya AC, Kohn DH. Effect of ionic activity products on the structure and composition of mineral self assembled on three-dimensional poly(lactide-co-glycolide) scaffolds. Journal of Biomedical Materials Research Part A 2007;83(4):1076–1086. 20. Thomson RC, Yaszemski MJ, Powers JM, Mikos AG. Hydroxyapatite fiber reinforced poly(alpha-hydroxy ester) foams for bone regeneration. Biomaterials 1998;19(21):1935–1943. 21. Kretlow JD, Mikos AG. Review: mineralization of synthetic polymer scaffolds for bone tissue engineering.

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