Verfügbarkeit: The chemistry of inorganic biomaterials /

The chemistry of inorganic biomaterials /:

This book overviews the underlying chemistry behind the most common and cutting-edge inorganic materials in current use, or approaching use, in vivo.

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Spicer, Christopher
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge : Royal Society of Chemistry, [2021]
Schriftenreihe:	Inorganic materials series.
Schlagworte:	Biomedical materials. Biomatériaux. Biomedical materials Chemistry, Inorganic
Online-Zugang:	Volltext
Zusammenfassung:	This book overviews the underlying chemistry behind the most common and cutting-edge inorganic materials in current use, or approaching use, in vivo.
Beschreibung:	3.5 Mimicking Native Bone.
Beschreibung:	1 online resource (312 pages)
ISBN:	9781788019835 1788019830 9781788019828 1788019822

Internformat

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505	8		\|a 1.4.1 Pitting and Crevice Corrosion -- 1.4.2 Stress Corrosion Cracking and Corrosion Fatigue -- 1.4.3 Hydrogen Embrittlement and Fretting Corrosion -- 1.4.4 Galvanic Corrosion and Intergranular Corrosion -- 1.4.5 Modularity as a Promoter of Corrosion -- 1.4.6 Passivation and Formation of Protective Oxides -- 1.4.7 Effect of Temperature and pH on Corrosion -- 1.5 In Vivo vs. In Vitro Studies of Implant Degradation -- 1.5.1 Dynamic vs. Static Flow Conditions -- 1.5.2 Stability of Artificial Bodily Fluids -- 1.5.3 The Chemical Feedback Loop Between Inflammation and Corrosion
505	8		\|a 1.5.4 Corrosion in Electrically Active Devices -- 1.5.5 Effect of Therapies on the In Vivo Corrosion of Implants -- 1.5.6 Role of Microorganisms in Corrosion and Failure -- 1.5.7 Protein-mediated Mechanisms of Material Degradation In Vivo -- 1.6 Physiological Implications of Corrosion and Wear -- 1.6.1 Interactions Between Macrophages and Metallic Wear Debris -- 1.6.2 Effect of Metallic Wear Debris on Tissue Regeneration -- 1.7 Concluding Remarks -- References -- Chapter 2 Calcium Phosphate Cements: Structure-related Properties -- 2.1 Introduction -- 2.2 Calcium Phosphate Family -- 2.3 CPCs
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contents	Intro -- Title -- Copyright -- Contents -- Chapter 1 Metallic Implants for Biomedical Applications -- 1.1 Introduction -- 1.2 General Approach to Metallic Implant Design and Manufacturing -- 1.2.1 Selection of Metals -- 1.2.1.4 Metal vs. Bone -- 1.2.2 Materials Processing Using 3D Printing -- 1.2.3 Surface Modification -- 1.3 Key Properties of Major Types of Metallic Implants -- 1.3.1 Steels -- 1.3.2 Co-Cr Alloys -- 1.3.3 Ti and Ti Alloys -- 1.3.4 Noble Metals and Alloys -- 1.3.5 Emerging Biomedical Materials -- 1.4 Corrosion of Metals In Vitro and In Vivo 1.4.1 Pitting and Crevice Corrosion -- 1.4.2 Stress Corrosion Cracking and Corrosion Fatigue -- 1.4.3 Hydrogen Embrittlement and Fretting Corrosion -- 1.4.4 Galvanic Corrosion and Intergranular Corrosion -- 1.4.5 Modularity as a Promoter of Corrosion -- 1.4.6 Passivation and Formation of Protective Oxides -- 1.4.7 Effect of Temperature and pH on Corrosion -- 1.5 In Vivo vs. In Vitro Studies of Implant Degradation -- 1.5.1 Dynamic vs. Static Flow Conditions -- 1.5.2 Stability of Artificial Bodily Fluids -- 1.5.3 The Chemical Feedback Loop Between Inflammation and Corrosion 1.5.4 Corrosion in Electrically Active Devices -- 1.5.5 Effect of Therapies on the In Vivo Corrosion of Implants -- 1.5.6 Role of Microorganisms in Corrosion and Failure -- 1.5.7 Protein-mediated Mechanisms of Material Degradation In Vivo -- 1.6 Physiological Implications of Corrosion and Wear -- 1.6.1 Interactions Between Macrophages and Metallic Wear Debris -- 1.6.2 Effect of Metallic Wear Debris on Tissue Regeneration -- 1.7 Concluding Remarks -- References -- Chapter 2 Calcium Phosphate Cements: Structure-related Properties -- 2.1 Introduction -- 2.2 Calcium Phosphate Family -- 2.3 CPCs 2.3.1 Setting Time -- 2.3.2 Injectability -- 2.3.3 Porosity -- 2.3.4 Bioresorbability -- 2.3.5 Anti-washout Properties -- 2.4 CaP Nanoparticles -- 2.4.1 Preparation and Morphologies -- 2.4.2 Applications -- 2.5 Setting Reactions -- 2.6 Influence of the CPC Microstructure on the Dissolution Rate -- 2.7 Influence of the Microstructure on Bioactivity -- 2.8 Structure-related Mechanical Properties -- 2.9 Summary -- References -- Chapter 3 Inorganic-Organic Hybrids: Mimicking Native Bone -- 3.1 Introduction -- 3.2 Bone as the Native Inorganic-Organic Hybrid Material 3.2.1 The Hierarchical Structure of Bone -- 3.2.2 Collagen Type I Protein: The Organic Material -- 3.2.3 Hydroxyapatite Mineral: The Inorganic Material -- 3.2.4 Development of Collagen Mineralisation in Native Tissues -- 3.2.5 Bone Tissue Engineering (BTE) -- 3.2.6 Hybrid Materials for BTE -- 3.3 Inorganic and Organic Materials for Bone Tissue Engineering -- 3.3.1 Inorganic Materials -- 3.3.2 Organic Materials -- 3.3.3 The Inorganic-Organic Interface -- 3.3.4 Chemical Surface Modification -- 3.4 Methods of Hybridising Inorganic-Organic Hybrids -- 3.4.1 Composites -- 3.4.2 Hybrids
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series	Inorganic materials series.
series2	Inorganic materials series
spelling	The chemistry of inorganic biomaterials / edited by Christopher Spicer. Cambridge : Royal Society of Chemistry, [2021] 1 online resource (312 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Inorganic materials series Intro -- Title -- Copyright -- Contents -- Chapter 1 Metallic Implants for Biomedical Applications -- 1.1 Introduction -- 1.2 General Approach to Metallic Implant Design and Manufacturing -- 1.2.1 Selection of Metals -- 1.2.1.4 Metal vs. Bone -- 1.2.2 Materials Processing Using 3D Printing -- 1.2.3 Surface Modification -- 1.3 Key Properties of Major Types of Metallic Implants -- 1.3.1 Steels -- 1.3.2 Co-Cr Alloys -- 1.3.3 Ti and Ti Alloys -- 1.3.4 Noble Metals and Alloys -- 1.3.5 Emerging Biomedical Materials -- 1.4 Corrosion of Metals In Vitro and In Vivo 1.4.1 Pitting and Crevice Corrosion -- 1.4.2 Stress Corrosion Cracking and Corrosion Fatigue -- 1.4.3 Hydrogen Embrittlement and Fretting Corrosion -- 1.4.4 Galvanic Corrosion and Intergranular Corrosion -- 1.4.5 Modularity as a Promoter of Corrosion -- 1.4.6 Passivation and Formation of Protective Oxides -- 1.4.7 Effect of Temperature and pH on Corrosion -- 1.5 In Vivo vs. In Vitro Studies of Implant Degradation -- 1.5.1 Dynamic vs. Static Flow Conditions -- 1.5.2 Stability of Artificial Bodily Fluids -- 1.5.3 The Chemical Feedback Loop Between Inflammation and Corrosion 1.5.4 Corrosion in Electrically Active Devices -- 1.5.5 Effect of Therapies on the In Vivo Corrosion of Implants -- 1.5.6 Role of Microorganisms in Corrosion and Failure -- 1.5.7 Protein-mediated Mechanisms of Material Degradation In Vivo -- 1.6 Physiological Implications of Corrosion and Wear -- 1.6.1 Interactions Between Macrophages and Metallic Wear Debris -- 1.6.2 Effect of Metallic Wear Debris on Tissue Regeneration -- 1.7 Concluding Remarks -- References -- Chapter 2 Calcium Phosphate Cements: Structure-related Properties -- 2.1 Introduction -- 2.2 Calcium Phosphate Family -- 2.3 CPCs 2.3.1 Setting Time -- 2.3.2 Injectability -- 2.3.3 Porosity -- 2.3.4 Bioresorbability -- 2.3.5 Anti-washout Properties -- 2.4 CaP Nanoparticles -- 2.4.1 Preparation and Morphologies -- 2.4.2 Applications -- 2.5 Setting Reactions -- 2.6 Influence of the CPC Microstructure on the Dissolution Rate -- 2.7 Influence of the Microstructure on Bioactivity -- 2.8 Structure-related Mechanical Properties -- 2.9 Summary -- References -- Chapter 3 Inorganic-Organic Hybrids: Mimicking Native Bone -- 3.1 Introduction -- 3.2 Bone as the Native Inorganic-Organic Hybrid Material 3.2.1 The Hierarchical Structure of Bone -- 3.2.2 Collagen Type I Protein: The Organic Material -- 3.2.3 Hydroxyapatite Mineral: The Inorganic Material -- 3.2.4 Development of Collagen Mineralisation in Native Tissues -- 3.2.5 Bone Tissue Engineering (BTE) -- 3.2.6 Hybrid Materials for BTE -- 3.3 Inorganic and Organic Materials for Bone Tissue Engineering -- 3.3.1 Inorganic Materials -- 3.3.2 Organic Materials -- 3.3.3 The Inorganic-Organic Interface -- 3.3.4 Chemical Surface Modification -- 3.4 Methods of Hybridising Inorganic-Organic Hybrids -- 3.4.1 Composites -- 3.4.2 Hybrids 3.5 Mimicking Native Bone. This book overviews the underlying chemistry behind the most common and cutting-edge inorganic materials in current use, or approaching use, in vivo. Biomedical materials. http://id.loc.gov/authorities/subjects/sh85014239 Biomatériaux. Biomedical materials fast Chemistry, Inorganic fast Spicer, Christopher. has work: The Chemistry of Inorganic Biomaterials (Text) https://id.oclc.org/worldcat/entity/E39PCXWwMcFKxYP6XcpqxFCkH3 https://id.oclc.org/worldcat/ontology/hasWork Print version: Spicer, Christopher. Chemistry of Inorganic Biomaterials. Cambridge : Royal Society of Chemistry, ©2021 9781788017534 Inorganic materials series. http://id.loc.gov/authorities/names/no2010123276 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2994409 Volltext
spellingShingle	The chemistry of inorganic biomaterials / Inorganic materials series. Intro -- Title -- Copyright -- Contents -- Chapter 1 Metallic Implants for Biomedical Applications -- 1.1 Introduction -- 1.2 General Approach to Metallic Implant Design and Manufacturing -- 1.2.1 Selection of Metals -- 1.2.1.4 Metal vs. Bone -- 1.2.2 Materials Processing Using 3D Printing -- 1.2.3 Surface Modification -- 1.3 Key Properties of Major Types of Metallic Implants -- 1.3.1 Steels -- 1.3.2 Co-Cr Alloys -- 1.3.3 Ti and Ti Alloys -- 1.3.4 Noble Metals and Alloys -- 1.3.5 Emerging Biomedical Materials -- 1.4 Corrosion of Metals In Vitro and In Vivo 1.4.1 Pitting and Crevice Corrosion -- 1.4.2 Stress Corrosion Cracking and Corrosion Fatigue -- 1.4.3 Hydrogen Embrittlement and Fretting Corrosion -- 1.4.4 Galvanic Corrosion and Intergranular Corrosion -- 1.4.5 Modularity as a Promoter of Corrosion -- 1.4.6 Passivation and Formation of Protective Oxides -- 1.4.7 Effect of Temperature and pH on Corrosion -- 1.5 In Vivo vs. In Vitro Studies of Implant Degradation -- 1.5.1 Dynamic vs. Static Flow Conditions -- 1.5.2 Stability of Artificial Bodily Fluids -- 1.5.3 The Chemical Feedback Loop Between Inflammation and Corrosion 1.5.4 Corrosion in Electrically Active Devices -- 1.5.5 Effect of Therapies on the In Vivo Corrosion of Implants -- 1.5.6 Role of Microorganisms in Corrosion and Failure -- 1.5.7 Protein-mediated Mechanisms of Material Degradation In Vivo -- 1.6 Physiological Implications of Corrosion and Wear -- 1.6.1 Interactions Between Macrophages and Metallic Wear Debris -- 1.6.2 Effect of Metallic Wear Debris on Tissue Regeneration -- 1.7 Concluding Remarks -- References -- Chapter 2 Calcium Phosphate Cements: Structure-related Properties -- 2.1 Introduction -- 2.2 Calcium Phosphate Family -- 2.3 CPCs 2.3.1 Setting Time -- 2.3.2 Injectability -- 2.3.3 Porosity -- 2.3.4 Bioresorbability -- 2.3.5 Anti-washout Properties -- 2.4 CaP Nanoparticles -- 2.4.1 Preparation and Morphologies -- 2.4.2 Applications -- 2.5 Setting Reactions -- 2.6 Influence of the CPC Microstructure on the Dissolution Rate -- 2.7 Influence of the Microstructure on Bioactivity -- 2.8 Structure-related Mechanical Properties -- 2.9 Summary -- References -- Chapter 3 Inorganic-Organic Hybrids: Mimicking Native Bone -- 3.1 Introduction -- 3.2 Bone as the Native Inorganic-Organic Hybrid Material 3.2.1 The Hierarchical Structure of Bone -- 3.2.2 Collagen Type I Protein: The Organic Material -- 3.2.3 Hydroxyapatite Mineral: The Inorganic Material -- 3.2.4 Development of Collagen Mineralisation in Native Tissues -- 3.2.5 Bone Tissue Engineering (BTE) -- 3.2.6 Hybrid Materials for BTE -- 3.3 Inorganic and Organic Materials for Bone Tissue Engineering -- 3.3.1 Inorganic Materials -- 3.3.2 Organic Materials -- 3.3.3 The Inorganic-Organic Interface -- 3.3.4 Chemical Surface Modification -- 3.4 Methods of Hybridising Inorganic-Organic Hybrids -- 3.4.1 Composites -- 3.4.2 Hybrids Biomedical materials. http://id.loc.gov/authorities/subjects/sh85014239 Biomatériaux. Biomedical materials fast Chemistry, Inorganic fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85014239
title	The chemistry of inorganic biomaterials /
title_auth	The chemistry of inorganic biomaterials /
title_exact_search	The chemistry of inorganic biomaterials /
title_full	The chemistry of inorganic biomaterials / edited by Christopher Spicer.
title_fullStr	The chemistry of inorganic biomaterials / edited by Christopher Spicer.
title_full_unstemmed	The chemistry of inorganic biomaterials / edited by Christopher Spicer.
title_short	The chemistry of inorganic biomaterials /
title_sort	chemistry of inorganic biomaterials
topic	Biomedical materials. http://id.loc.gov/authorities/subjects/sh85014239 Biomatériaux. Biomedical materials fast Chemistry, Inorganic fast
topic_facet	Biomedical materials. Biomatériaux. Biomedical materials Chemistry, Inorganic
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2994409
work_keys_str_mv	AT spicerchristopher thechemistryofinorganicbiomaterials AT spicerchristopher chemistryofinorganicbiomaterials

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