Surface Engineering Of Polymeric Biomaterials
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Surface Engineering of Polymeric Biomaterials
Biomaterials work in contact with living matter and this gives a number of specific requirements for their surface properties, such as bioinertness or bioactivity, antibiofouling, and so on. Surface engineering based on physical, chemical, physical-chemical, biochemical or biological principles is important for the preparation of biomaterials with the desired biocontact properties. This book helps the reader gain the knowledge to enable them to work in such a rapidly developing area, with a comprehensive list of references given for each chapter. Strategies for tailoring the biological response through the creation of biomaterial surfaces resistant to fouling are discussed. Methods of eliciting specific biomolecular interactions that can be further combined with patterning techniques to engineer adhesive areas in a noninteractive background are also covered. The theoretical basis of surface engineering for improvement of biocontact properties of polymeric biomaterials as well as the current state-of-the-art of the surface engineering of polymeric biomaterials are presented. The book also includes information on the most used conventional and advanced surface engineering methods. The book is targeted at researchers, post-doctorates, graduate students, and those already working in the field of biomaterials with a special interest in the creation of polymeric materials with improved biocontact properties via surface engineering.
Surface Modification of Polymeric Biomaterials
Author: Buddy D. Ratner
language: en
Publisher: Springer Science & Business Media
Release Date: 2013-06-29
Applications of synthetic materials in medicine date back over 4000 year2. The Egyptians used linen as sutures. In the Roman Empire, gold was used in dentistry. Perhaps even earlier, ivory and bone may have been used in the body by practitioners of the healing arts. The historical origins of modem biomaterials science are also hard to precisely trace, but many of the ideas that define biomaterials as we know them today evolved in the late 1950s and early 1960s. Surface modification technology has played a prominent role in biomaterials science, and has paralleled the evolution of the modem field. In a symposium organized by the Artifical Heart Program of the NIH National Heart Institute and the Artificial Kidney program of the NIH National Institute of Arthritis and Metabolic Diseases, held in Atlantic City, New Jersey, in 1968, there were already a number of presentations on surface modification. Surface characterization at that time included scanning electron microscopy, ellipsometry, contact angle methods, and infrared internal reflection methods.
Surface Engineering of Biomaterials
Surface engineering provides one of the most important means of engineering product differentiation in terms of quality, performance, and lifecycle cost. It is essential to achieve predetermined functional properties of materials such as mechanical strength, biocompatibility, corrosion resistance, wear resistance, and heat and oxidation resistance. Surface Engineering of Biomaterials addresses this topic across a diverse range of process technologies and healthcare applications. Introduces biomaterial surface science and surface engineering and includes criteria for biomaterial surface selection Focuses on a broad array of materials including metals, ceramics, polymers, alloys, and composites Discusses corrosion, degradation, and material release issues in implant materials Covers various processing routes to develop biomaterial surfaces, including for smart and energy applications Details techniques for post-modification of biomaterial surfaces This reference work helps researchers working at the intersection of materials science and biotechnology to engineer functional biomaterials for a variety of applications.