Multiphase biomedical materials
Author(s)
Bibliographic Information
Multiphase biomedical materials
VSP, 1989
Available at 2 libraries
  Aomori
  Iwate
  Miyagi
  Akita
  Yamagata
  Fukushima
  Ibaraki
  Tochigi
  Gunma
  Saitama
  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
  China
  Thailand
  United Kingdom
  Germany
  Switzerland
  France
  Belgium
  Netherlands
  Sweden
  Norway
  United States of America
Note
Includes bibliographies and index
Description and Table of Contents
Description
Following many reports that were published in the last two decades on correlations of multiphase structures of the surface of materials with their antithrombogenicity or biocompatibility a research project ''Design of Multiphase Biomedical Materials'' was carried out in Japan between 1982 and 1986. The objective of this research project was to elucidate various aspects of biomedical behaviour of multiphase systems at the interface with living bodies at the molecular, cellular and tissue levels. Multiphase materials studied cover polymers having microphase-separated structures, hydrogels, immobilized enzymes (or cells), ceramics and metallic materials.
The research project was carried out by the following subgroups:
-- Multiphase biomedical materials with microdomain structures
-- Multiphase biomedical materials containing liquid components
-- Hybrid-type multiphase biomedical materials with biological components
-- Inorganic and metallic multiphase biomedical materials
-- Methods for analysis and evaluation of multiphase biomedical materials
This book contains the results of the research project in an edited form and aims to provoke a better understanding about various aspects of cell--material interactions in which the multiphase systems play a crucial role.
Table of Contents
Preface Controlled interaction of cells with multiphase structured surfaces of block and graft copolymers K. Kataoka, T. Okano, Y. Sakurai, A. Maruyama and T. Tsuruta Microdomain structure and biomedical properties of block copolymers containing polypeptide blocks A. Nakajima, T. Hayashi and H. Sato Interaction of cell on the surface of multiphase polymer assemblies Y. Imanishi A new evaluation method of antithrombogenicity of biomedical polymers N. Noishiki Hybrid biomaterial incorporated with living cells in modified collagens T. Akaike, S. Kasai, S. Nishizawa, A. Kobayashi and T. Miyata Hybridization of natural tissues containing collagen with biocompatible materials: adhesion to tooth substrates N. Nakabayashi Mechanical properties of a new type of glass-ceramic for prosthetic application T. Kokubo Metallic biomaterials for replacement of hard tissue I. Miura, H. Hamanaka and O. Okuno Use of immobilized enzyme reactors in automated clinical analyses T. Murachi Synthetic polymer-antigenic protein hybrids: modification of batroxobin with polyethylene glycol Y. Inada, A. Matsushima, Y. Saito, T. Yoshimoto, H. Nishimura and H. Wada Improved drug delivery directed to specific tissue using polysaccharide-coated liposomes J. Sumamoto and T. Sato
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