Biomaterials engineering and devices Human Applications
Author(s)
Bibliographic Information
Biomaterials engineering and devices Human Applications
Humana Press, 2000
- v. 1 : alk. paper
- v. 2 : alk. paper
Available at 4 libraries
  Aomori
  Iwate
  Miyagi
  Akita
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  Fukushima
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  Tochigi
  Gunma
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  Chiba
  Tokyo
  Kanagawa
  Niigata
  Toyama
  Ishikawa
  Fukui
  Yamanashi
  Nagano
  Gifu
  Shizuoka
  Aichi
  Mie
  Shiga
  Kyoto
  Osaka
  Hyogo
  Nara
  Wakayama
  Tottori
  Shimane
  Okayama
  Hiroshima
  Yamaguchi
  Tokushima
  Kagawa
  Ehime
  Kochi
  Fukuoka
  Saga
  Nagasaki
  Kumamoto
  Oita
  Miyazaki
  Kagoshima
  Okinawa
  Korea
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  United Kingdom
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Note
Includes bibliographical references and index
Contents of Works
- v. 1. Fundamentals and vascular and carrier applications
- v. 2. Orthopedic, dental, and bone graft applications
Description and Table of Contents
- Volume
-
v. 1 : alk. paper ISBN 9780896038585
Description
Authoritative international experts comprehensively review many current state-of-the-art uses of polymers, metals, and ceramics in the human body. A veritable encyclopedia of valuable data and experience, this volume not only fully addresses the major issues of compatibility and functionality, but also provides a technical treatise on the design and evaluation of biomaterials for vascular application and on biomaterials as carriers for bioactive agents. A second volume, Biomaterials Engineering and Devices: Human Applications, Volume 2 is devoted to biomaterials for dental applications, bony biomaterials for grafting applications, and orthopedic fixtures and cements. Extensively illustrated and referenced, Biomaterials Engineering and Devices: Human Applications, Volume 1: Fundamentals and Vascular and Carrier Applications integrates for today's bioengineering professionals the basic science, engineering, and practical medical experience needed to meet the ever-growing demand for new and better biomaterials.
Table of Contents
Part 1. Compatibility and Functionality Issues in Applied Biomaterials. Molecular Mechanism of Biomaterial-Mediated Phagocyte Responses, Liping Tang. Hypersensitivity Associated with Metallic Biomaterials, Nadim Hallab, Joshua J. Jacobs, and Jonathan Black. Blood-Compatible Bioactive Polymers, Stephane La Barre and Catherine Boisson-Vidal. Novel Modification Method of Bioprosthetic Tissue for Improved Calcification Resistance, Ki Dong Park, Young Ha Kim, and Won Kyu Lee. Biocompatibility of Silicone Gel Breast Implants, Deepak V. Kilpadi and Dale S. Feldman. Endothelialization of Vascular Prostheses, Gary L. Bowlin, Steven P. Schmidt, Stanley E. Rittgers, and Kristin J. Pawlowski. Part 2. Design and Evaluation of Materials for Vascular Applications. Collagen-Based Vascular Prostheses, Jerome A. Werkmeister, Glenn A. Edwards, and John A. M. Ramshaw. Surface Modifications of Mechanical Heart Valves: Effects on Thrombogenicity, Hoang S. Tran, Matthew M. Puc, Frank A. Chrzanowski, Jr., Charles W. Hewitt, David B. Soll, Bawa Singh, Nalin Kumar, Steven Marra, Vincent Simonetti, Jonathan Cilley, and Anthony J. DelRossi. The Importance of Radial Forces in Vascular Stent Design, P. B. Snowhill, J. L. Nosher, and F. H. Silver. Blood Leak-Proof Porous Vascular Grafts, Jin Ho Lee, Gilson Khang, and Hai Bang Lee. Formation of Neointima in Vascular Prosthesis Sealed with Autologous Adipose Tissue Fragments for Femoropopliteal Bypass, Yukio Ichikawa, Yasuharu Noishiki, Tamitaro Soma, Ichiya Yamazaki, Takayuki Kosuge, and Norihisa Karube. Clinical Improvement in Patients with Coronary and Peripheral Vascular Diseases Treated by LDL-Adsorption Using the Liposorber LA-15 System, Tetsuzo Agishi and Bruce Gordon. Development of a New Hybrid Coronary Stent Design with Optimized Biocompatible Properties, Armin Bolz, Claus Harder, Martin Unverdorben, and Max Schaldach. Part 3. Biomaterials as Carriers for Bioactive Agents. Incorporation of Active Agent into Biodegradable Cement:Encapsulation of Agent as Protection from Chemical Degradation During Cure and Effect on Release Profile, Joseph D. Gresser, Hisanori X. Nagaoka, Debra J. Trantolo, Pattisapu R. J. Gangadharam, Yung-Yueh Hsu, and Donald L. Wise. New Synthetic Degradable Polymers as Carrier Materials for BMP, Kunio Takaoka, Shimpei Miyamoto, Naoto Saito, and Takao Okada. Use of Carrier Materials in Delivery of Bone Inductor Substances, Philip J. Boyne. Preclinical and Clinical Evaluation of Osteogenic Protein-1 (BMP-7) in Bony Sites, Stephen D. Cook, Samantha L. Salkeld, Laura P. Patron, and David C. Rueger. Enzyme-Based Artificial Liver Support: A Computerized Expert System for Design, Optimization, and Operation Control, Serge Guzy, Samuel Sideman, and Noah Lotan. Bupivacaine Release from Biopolymeric Depots for the Alleviation of Postoperative Pain, William A. Apruzzese, Joseph D. Gresser, Daniel B. Carr, Louis Shuster, Donald L. Wise, and Debra J. Trantolo. Biomaterial Implants for Treatment of Central Nervous System Diseases, Wei Chen, Bingqing Ji, and D. Robert Lu. Index.
- Volume
-
v. 2 : alk. paper ISBN 9780896038592
Description
The medical device and drug industries standards in analytical methodology and are consistently among the strongest techno- quality control. logical performers. Materials are a key The users of Biomaterials Engineering ingredient in their dynamic growth. Devel- and Devices: Human Applications will r- opment of these materials is in a constant resent a broad base of backgrounds ranging state of activity, with the challenge of re- from the basic sciences (e. g. , polymer placing old materials that cannot withstand chemistry and biochemistry) to more the tests of time, and the new materials' applied disciplines (e. g. , mechanical/ needs coming to the forefront in modern chemical engineering, orthopedics, and applications. This new reference text, pharmaceutics). To meet varied needs, each Biomaterials Engineering and Devices: chapter provides clear ancd fully detailed Human Applications, focuses on materials discussions. This in-depth, but practical, used in or on the human body-materials coverage should also assist recent indu- that define the world of "biomaterials. " ees to the biomaterials circle. The editors Biomaterials Engineering and Devices: trust that this reference textbook conveys Human Applications focuses on mate- the intensity of this fast moving field in an rials development and characterization. enthusastic presentation. Chapters deal with issues in the selection of Donald L. Wise, PHD proper biomaterials from biocompatibility Debra J. Trantolo, PHD to biostability to structure/function relation- Kai-Uwe Lewandrowski, MD ships. Chapters also focus on the use of Joseph D. Gresser, PHD specific biomaterials based on their physio- Mario V.
Table of Contents
Part 1. Biomaterials for Dental Applications. Biomaterials Used in Implant Dentistry, John P. Ley, A. Norman Cranin, and Michael Katzap. Polymers in the Oral Environments: Novel Elastomers as Soft Liners, Kalachandra Sid and Tetsuya Takamata. HA Coatings on Dental Implants, Joo L. Ong, Daniel C. N. Chan, and Kazuhisa Bessho. Characterization of Water Inhibition in Light-Cured Dental Resins, Kristen L. Droesch, Brian J. Love, and Virginie M. Vaubert. Osseointegrated Dental Implants: Follow-up Studies, Gunther Heimke and Cornelius G. Wittal. Part 2. Bony Biomaterials for Grafting Applications. Artificial Bone: Hydroxyapatite Reconstruction of Tibial Plateau Fractures, P. Patka, H. J. Th. M. Haarman, M. van der Elst, and F. C. Bakker. Enhancing Cortical Allograft Incorporation Processing by Partial Demineralization and Laser Perforation: A Histological, Biomechanical, and Immunological Study, Kai-Uwe Lewandrowski, Georg Schollmeier, Axel Ekkernkamp, Henry J. Mankin, Hans K. Uhthoff, and William W. Tomford. Synthetic Osseous Grafting: A Necessary Component to Oral Reconstruction, Arthur Ashman and Jeffrey S. Gross. HA-SAL2: Novel Bone Graft Substitute with Composition Mimicking Bone Mineral, Hannah Ben-Bassat, Benjamin Y. Klein, Isaac Leichter, Meir Liebergall, David Segal, Frigita Kahana, and Sara Sarig. Soluble Calcium Salts in Bioresorbable Bone Grafts, Joseph D. Gresser, Kai-Uwe Lewandrowski, Debra J. Trantolo, Donald L. Wise, and Yung-Yueh Hsu. Part 3. Orthopedic Fixtures and Cements. Surface Hardening of Orthopedic Implants, Ravi H. Shetty. Orthopedic Applications of Carbon Fiber Composites, Joseph A. Longo III and James B. Koeneman. Development of a Bioresorbable Interbody Fusion Device, Kai-Uwe Lewandrowski, Joseph D. Gresser, Debra J. Trantolo, Georg Schollmeier, Frank Kandziora, and Donald L. Wise. Follow-up-Study-Based Wear Debris Reduction with Ceramic-Metal-Modular Hip Replacements, Gunther Heimke and Gerd Willmann. Applied Aspects of Calcium PhosphateBone Cement Application, F. C. M. Driessens, M. G. Boltong, I. Khairoun, E. A. P. De Maeyer, M. P. Ginebra, R. Wenz, J. A. Planell, and R. M. H. Verbeeck. Osteointegration and Dimensional Stability of Poly(D,L-Lactide-Co-Glycolide) Implants Reinforced with Poly(Propylene Glycol-Co-Fumaric Acid): Histomorphometric Evaluation of Metaphyseal Bone Remodeling in Rats, Joseph D. Gresser, Kai-Uwe Lewandrowski, Debra J. Trantolo, and Donald L. Wise. Particulate Metal in Late Aseptic Loosening of Cemented Total Hip Arthroplasties, Jochanan H. Boss, David G. Mendes, and Ines Misselevich. Injectable and Bioresorbable Poly(Propylene Glycol-Co-Fumaric Acid) Bone Cement, Debra J. Trantolo, Kai-Uwe Lewandrowski, Joseph D. Gresser, and Donald L. Wise. Development of a Modular Ceramic Knee Prosthesis, W. M. Payten and B. Ben-Nissan. Index.
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