- Language: English
- 680 Pages
- Published: May 2013
- Region: Global
Encyclopedia of Biomaterials and Biomedical Engineering. Edition No. 2
- Published: May 2008
- Region: Global
- 3552 Pages
- Informa Healthcare
Written by more than 400 subject experts representing diverse academic and applied domains, this multidisciplinary resource surveys the vanguard of biomaterials and biomedical engineering technologies utilizing biomaterials that lead to quality-of-life improvements. Building on traditional engineering principles, it serves to bridge advances in materials science, life sciences, nanotechnology, and cell biology to innovations in solving medical problems with applications in tissue engineering, prosthetics, drug delivery, biosensors, and medical devices.
In nearly 300 entries, this four-volume Encyclopedia of Biomaterials and Biomedical Engineering, Second Edition covers:
- essential topics integral to tissue engineering research: bioreactors, scaffolding materials and fabrication, tissue mechanics, cellular interaction, and development of major tissues and organs being attempted by researchers worldwide
- artificial lungs and muscles, bio-artificial livers, and corneal, dental, inner ear, and total hip implants
- tissue engineering of blood vessels, heart valves, ligaments, microvascular networks, skeletal muscle, and skin
- bone remodeling, bone cement, and bioabsorbable bone plates and screws
- controlled drug delivery, insulin delivery, and transdermal and ocular implant-based drug delivery
- endovascular stent grafts, vascular grafts, and xenografts
- 3-D medical imaging, electrical impedance imaging, and intravascular ultrasound
- biomedical, protein adsorption, and in vivo cardiovascular modeling
- polymer foams, biofunctional and conductive polymers, and electroactive polymeric materials
- blood–material interactions, the bone–implant interface, host reactions, and foreign body responses
- and much more SHOW LESS READ MORE >
Antimineralization Treatment. Artificial Neural Networks: An Overview. Bioactive Materials and Scaffolds for Tissue Engineering. Biomaterials, Immune Response. Bioresorbable Polymers, An Overview. Cell-Material Interaction. Compression of Digital Biomedical Signals. Electromyography. Magnetic Resonance Microscopy. Melt Spinning. Polyamides (Synthetic and Natural). Repair and Regeneration of Peripheral Nerves: Historical Perspective. Sterilization of Biomedical Materials. Supercritical Fluid Processing. Ultrasonic Therapy, Bone Healing. Wear Debris, Bone Resorption Animal Models. Zirconia Ceramics.
GARY E. WNEK is the Joseph F. Toot, Jr. Professor of Engineering, Professor and Chair of the Department of Macromolecular Science and Engineering, and Faculty Director of The Institute for Management and Engineering, Case Western Reserve University, Cleveland, Ohio. He is the author or coauthor of over 130 journal articles and 19 patents, and the coeditor of four books, including the Handbook of Pharmaceutical Controlled Release Technology, Photonic Polymer Systems, and Electrical and Optical Polymer Systems (Informa Press). His research interests include the development of polymeric materials for applications in medicine, microfluidics, and energy conversion and storage. A member of the American Chemical Society, the Materials Research Society, and the American Institute of Chemical Engineers, Dr. Wnek received the B.S. degree in chemical engineering from Worcester Polytechnic Institute, Massachusetts, and the Ph.D. degree in polymer science and engineering from the University of Massachusetts, Amherst.
GARY L. BOWLIN is an Associate Professor and the Louis and Ruth Harris Exceptional Scholar Professorship of Biomedical Engineering at Virginia Commonwealth University, Richmond, Virginia. He has extensive experience in cardiovascular materials and the field of tissue engineering. As a researcher, he has authored or coauthored over 50 journal articles in the areas of vascular tissue engineering and biopolymer processing for tissue engineering scaffolds. He also holds five U.S. patents and is a Co-Founding inventor of NanoMatrix, Inc., based on electrospinning tissue engineering scaffold technology and TraumaCure, Inc., regarding the development of hemostatic products. Dr. Bowlin is a member of the Biomedical Engineering Society, American Institute of Chemical Engineers, Society for Biomaterials, Tissue Engineering and Regenerative Medicine International Society, and the International Society of Applied Cardiovascular Biology. Dr. Bowlin received the B.S. in chemical engineering from Youngstown State University, Ohio, the M.S. in chemical engineering from the University of New Hampshire, Durham, and the Ph.D. degree in biomedical engineering from The University of Akron, Ohio.