Metals as Biomaterials
Biomaterials Science and Engineering Series
1. Edition August 1998
XII, 510 Pages, Hardcover
Wiley & Sons Ltd
Short Description
Although biomaterials have become a mature field of science with a wide range of applications, this is the first book of its kind to bring together all the metals and alloys with biomedical relevance, providing a reference for selecting a material for a new implant or modification.
Biomaterials is a field that continues to attract a significant amount of attention from researchers, industry, educationalists and regulators. This book is the first to provide readers with an understanding of fundamental theory relating to the use of metals in biomedical applications in addition to comprehensively covering applied aspects encompassing practical and technical advantages and disadvantages. Topics highlighted in the book include guidelines for selecting materials; shape memory alloys; degradation and surface modification; adhesion to ceramics and polymers; biocompartibility and tissue-implant interactions; and European and North American regulatory issues.
Metals and Implants (H. Breme, et al.).
Shape Memory Alloys (J. Humbeeck, et al.).
Degradation (in vitro-in vivo Corrosion) (D. Scharnweber).
Surfaces, Surface Modification and Tailoring (H. Breme).
Special Thin Organic Coatings (H. Worch).
Adhesion of Polymers (W. Possart).
Adhesion to Ceramics (H. Breme, et al.).
Biological Response and Biocompatibility (H. Hildebrand & J.-C. Hornez).
Tissue-Implant Interaction (R. Thull).
Cells and Metals (D. Jones).
X-Ray Photoelectron Spectroscopy (J. Pireaux & J. Riga).
Atomic Force Microscopy (U. Hartmann).
Electrochemical Impedance Spectroscopy as a Surface Analytical Technique for Biomaterials (J. Hubrecht).
Retrieval Analysis (P. Laffargue, et al.).
Index.
