Titlebook: Orthopedic Biomaterials; Advances and Applica Bingyun Li,Thomas Webster Book 2017 Springer International Publishing AG, part of Springer Na

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Calcium Phosphate Coatings for Metallic Orthopedic Biomaterialsapplications. Surface functionalizations are of particular interest to improve their surface bioactivity and provide other biofunctionalities for biomedical applications. Because of the excellent biological functions of calcium phosphate ceramics (CaPs), CaP coatings have been proposed and developed

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Peptides as Orthopedic Biomaterialsto degrade and be absorbed gradually in vivo during the tissue healing process. Compared to Mg alloys and Fe alloys, the standard electrode potential of Zn is between that of Mg and Fe, so its degradation rate has been proved to be more likely in line with the clinical demand. In addition, Zn is one

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Biodegradable Metals for Orthopedic Applications in orthopedic implants. The development is introduced in this chapter, including the degradation mechanism and its affecting factors, its bio-functions (promoting osteogenesis, antimicrobial and inhibiting tumor cell survival) and its orthopedic applications (bone fixation, bone substitute, osteomy

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Surface Modification and Coatings for Controlling the Degradation and Bioactivity of Magnesium Alloyoperties; such as the similarity of their mechanical properties to cortical bone and their osteoconductivity. However, Mg alloys degrade rapidly in vivo, which reduces the local pH and can harm cells. Coatings and surface treatments can control the degradation rate of Mg alloys by limiting the diffu

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