Titanium in Medicine: Material Science, Surface Science, Engineering, Biological Responses, and Medical ApplicationsThis comprehensive book provides state-of-the-art scientific and technical information in a clear format and consistent structure making it suitable for formal course work or self-instruction. The authors are drawn not only from academic institutions but also from industry, so that practical aspects of implant fabrication and material handling are covered that are often lacking in biomaterials texts. Besides readers with a general interest in biomaterials, the book will interest materials investigators, surgeons and dentists using titanium implants, medical scientists and engineers, as well as lecturers at universities or institutes who would benefit by having ready access to authoritative information on the use of titanium for implants, devices and instruments. More information: http://www.titaniuminmedicine.com. |
Contents
A Perspective on Titanium Biocompatibility | 2 |
Titanium and Biocompatibility and the 21st Century | 9 |
A Perspective on Titanium Biocompatibility | 12 |
Metallurgy and Technological Properties of Titanium | 25 |
TitaniumNickel Shape Memory Alloys in Medical Applications | 53 |
Characterization of Titanium Surfaces | 87 |
The Corrosion Properties of Titanium and Titanium Alloys | 145 |
Properties and Biological Significance | 171 |
Titanium Ceramics for CellCarriers and for Medical Applications | 649 |
Design and Engineering Criteria for Titanium Devices | 673 |
Titanium for Hip and Knee Prostheses | 703 |
Wear of Titanium 64 Alloy in Laboratory Tests | 747 |
Introduction | 772 |
Mechanical Requirements to be Fulfilled by Implants | 780 |
Implant Systems for Osteosynthesis | 789 |
Implant Performance | 802 |
Mechanical Thermal Chemical and Electrochemical | 231 |
SolGel Coatings on Titanium | 267 |
Physical and Chemical Vapor Deposition | 283 |
Production of Microfabricated Surfaces | 343 |
Thermal Spray Coatings on Titanium | 375 |
Biochemical Modification of Titanium Surfaces | 417 |
Part IV | 436 |
Proteins at Titanium Interfaces | 457 |
Principles of Cell Behavior on Titanium Surfaces | 485 |
Titanium in Soft Tissues | 513 |
The TitaniumBone Interface In Vivo | 587 |
Biological Reaction of Tissues to Implant Materials | 814 |
Summary | 823 |
Titanium for Dental Applications I | 827 |
Titanium in Cardiac and Cardiovascular Applications | 889 |
Titanium in Audiology | 909 |
Regulatory Aspects in the Use of Titaniumbased Materials | 929 |
Appendix | 949 |
Appendix | 971 |
Appendix C | 995 |
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Common terms and phrases
acid adhesion adsorbed adsorption analysis anodic applications arthroplasty behavior biocompatibility biological Biomaterials Biomed Mater Res bone formation BrÄnemark calcium phosphate cells cement ceramic Chap chemical Clin Oral Implants clinical coating collagen components composition corrosion CP titanium dental implants deposition effects electron electropolished etching evaluation fibrinogen fibroblasts fibronectin fixation fracture function Göteborg University grooves healing hydroxyapatite implant materials implant surface Int J Oral interactions interface macrophages martensite Mater Sci mechanical medical devices metal nium Oral Implants Res Oral Maxillofac Implants orthopaedic osseointegration osteoblasts oxide film particles passive patients plasma plasma-sprayed plate potential produced properties prostheses protein pure titanium reaction response screws shape memory shape memory alloys soft tissue sol-gel specific spraying sputtering stainless steel structure studies substrate surface roughness techniques temperature tests thickness TiNi TiO2 tion tita titanium alloy titanium implants titanium oxide titanium surfaces topography treatment vitro vivo wear