Production Properties and Biotechnological/Biomedical Applications
Macroporous polymers are rapidly becoming the material of choice for many tissue engineering, bioseparation, and bioprocessing applications. However, while important information is scattered about in many different publications, none, to date, have drawn this information together in user-friendly format, until now. Meeting the need for an accessible, organized resource, Macroporous Polymers: Production Properties and Biotechnological/Biomedical Applications supplies a systematic presentation of the production, characterization, and application of these polymers.
The text discusses traditional methods of production, including phase separation polymerization, leaching, foaming, and double emulsion as well as emerging methods such as cryogelation. The chapters also detail the various applications of macroporous gels for the separation of biomolecules and for the cultivation of mammalian cells in bioreactors and for tissue engineering. The book underscores existing and potential problems while providing a solid background on which to base the evaluation of the scientific and commercial value of new developments.
The editors bring together different viewpoints, summarize state-of-the-art achievement, and cover applications in biotechnology, downstream processing, and biomedicine. They have collected the latest research and molded it into a cohesive reference, closing the gap between macromolecular design and production of these gels/polymers and their possible applications. With the intensity of development in this area likely to increase, the foundation provided by this book can help you meet the challenges inherent in the development of new and better materials for new and better applications.
Table of Contents
Production of Macroporous Polymers
Production of Macroporous Polymeric Materials by Phase Separation Polymerization, O. Okay
Production and Properties of Cryogels by Radical Polymerization, F.M. Plieva, I.Y. Galaev, and B. Mattiasson
Macroporous Polymer Scaffolds through Leaching Processes, M.C. Hacker, K. Ambrosch, and M. Schulz-Siegmund
Production and Properties of Poly(Vinyl Alcohol) Cryogels: Recent Developments, M.C. Gutierrez, I. Aranaz, M.L. Ferrer, and F. del Monte
Preparation of Polylactide Scaffolds, M.-H. Ho, D.-M. Wang, H.-J. Hsieh, and J.-Y. Lai
Macroporous Polysaccharide Gels, F.M. Plieva, I.Y. Galaev, and B. Mattiasson
Superporous Agarose Gels: Production, Properties, and Applications, P.-E. Gustavsson, P. Tiainen, and P.-O. Larsson
Fast-Responsive Macroporous Hydrogels, H. Omidian and K. Park
Characterization of Macroporous Polymers
Characterization of Macroporous Gels, I.N. Savina, P.E. Tomlins, S.V. Mikhalovsky, and I.Y. Galaev
Macroporous Polymeric Materials: Synthetic Strategies and Morphological Characterizations, A.K. Bajpai and S.K. Shukla
Application of Macroporous Polymers
Macroporous Gels for Isolation of Small Molecules from the Solutions Containing Suspended Material, B. Mattiasson, F.M. Plieva, and I.Y. Galaev
Monolithic Macroporous Polymers as Chromatographic Matrices, N.L. Krajnc, F. Smrekar, V. Frankovicˇ, A. Štrancar, and A. Podgornik
Chromatographic Separation of Plasmid DNA Using Macroporous Beads, D.M. de Franca Prazeres
Cryogels as Matrices for Cell Separation and Cell Cultivation, M.B. Dainiak, A. Kumar, I.Y. Galaev, and B. Mattiasson
Macroporous Polymeric Scaffolds for Tissue Engineering Applications, A. Kumar, E. Jain, and A. Srivastava
Polymeric Scaffolds for Regenerative Medicine, P.A. De Bank, M.D. Jones, and M.J. Ellis