Description |
1 online resource (89 p.) |
Series |
Tissue repair and reconstruction |
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Tissue repair and reconstruction
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Contents |
Intro -- Preface -- Contents -- 1 Introduction -- References -- 2 Why Surface Modification -- References -- 3 Calcium Phosphate -- References -- 4 Mechanical Integrity of Thin Films and Coatings and Their Clinical Significance -- 4.1 Determining Stresses in Thin Films and Coatings -- 4.2 Interfacial Adhesion Between a Coating and a Substrate -- 4.3 Coating Adhesion and Mechanical Interlocking -- 4.4 Enhancing the Adhesion of Nanocoatings to Titanium via Anodization Process -- 4.5 Adhesion Theories Based on Chemical Bond, Electrostatic, and Diffusion |
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4.6 Characterizing Coatings and Nanocoatings Mechanically Prior to Implantation -- 4.6.1 In Situ Microtensile Test -- 4.6.2 Shear and Tensile Pull-Off Testing -- 4.6.3 Nanoindentation Testing -- 4.6.4 Bend Delamination Test -- 4.6.5 Bulge and Blister Testing -- 4.6.6 Scratch Testing -- 4.6.7 Pin-on-Disk -- References -- 5 Coating Deposition Techniques -- 5.1 Coatings Produced by Plasma Spraying -- 5.2 Comparison Between Coatings Produced by Plasma Spraying and Sol-Gel Technique -- 5.3 The Sol-Gel Deposition Approach -- 5.3.1 The Alkoxide Route -- 5.4 Other Coating Deposition Techniques |
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5.4.1 Pulsed Laser Deposition -- 5.4.2 Physical and Chemical Vapor Depositions -- 5.4.3 Electrodeposition -- References -- 6 Cellular Responses -- References -- 7 Enhancing Implant Osseointegration Through Nanocomposite Coatings -- 7.1 Collagen -- 7.2 Chitosan -- 7.3 Bone Morphogenetic Proteins (BMPs) -- 7.4 Peptides -- 7.5 Stem Cells -- 7.6 Functionalization Using Osteopontin -- 7.7 Simvastatin -- References -- 8 Calcium Phosphate Nanocoated Coralline Apatite -- References |
Summary |
This book provides in-depth assessment on the latest clinical advances in multifunctional calcium phosphate nanocoatings and its influence on bone regeneration and early healing following implantation. A greater emphasis will be placed on the use of nanocomposite coatings to deliver biological materials such as mesenchymal stem cells, growth factors, bone morphogenetic and extracellular matrix proteins, and pharmaceutics such as simvastatin to improve and promote bone growth as well as reducing the timeframe needed for implant integration in both healthy and osteoporotic patients. The content of the book caters to clinical practitioners and researchers working in the field of biomaterials for bone regeneration |
Bibliography |
Includes bibliographical references |
Notes |
Online resource; title from PDF title page (SpringerLink, viewed September 27, 2023) |
Subject |
Nanostructured materials -- Therapeutic use
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Bone regeneration -- Technological innovations
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Thin films.
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Calcium phosphate.
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Calcium Phosphates
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Form |
Electronic book
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Author |
Ben-Nissan, B.
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ISBN |
9789819955060 |
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9819955068 |
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