Hollander / Hatton | Biopolymer Methods in Tissue Engineering | Buch | 978-0-89603-967-4 | sack.de

Buch, Englisch, Band 238, 257 Seiten, Format (B × H): 158 mm x 233 mm, Gewicht: 1260 g

Reihe: Methods in Molecular Biology

Hollander / Hatton

Biopolymer Methods in Tissue Engineering


2004. Auflage 2003
ISBN: 978-0-89603-967-4
Verlag: Humana Press

Buch, Englisch, Band 238, 257 Seiten, Format (B × H): 158 mm x 233 mm, Gewicht: 1260 g

Reihe: Methods in Molecular Biology

ISBN: 978-0-89603-967-4
Verlag: Humana Press

There is an urgent need to develop new approaches to treat conditions as- ciated with the aging global population. The surgeon’s approach to many of these problems could be described as having evolved through three stages: Removal: Traditionally, diseased or badly damaged tissues and structures might simply be removed. This was appropriate for limbs and non-essential organs, but could not be applied to structures that were critical to sustain life. An additional problem was the creation of disability or physical deformity that in turn could lead to further complications. Replacement: In an effort to treat wider clinical problems, or to overcome the limitations of amputation, surgeons turned to the use of implanted materials and medical devices that could replace the functions of biological structures. This field developed rapidly in the 1960s and 1970s, with heart valve and total joint replacement becoming common. The term “biomaterial” was used increasingly to describe the materials used in these operations, and the study of biomaterials became one of the first truly interdisciplinary research fields. Today, biomaterials are employed in many millions of clinical procedures each year and they have become the mainstay of a very successful industry.
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Zielgruppe

Research

Autoren/Hrsg.

Hollander, Anthony P
Hatton, Paul V

Fachgebiete

Weitere Infos & Material

Processing of Resorbable Poly-?-Hydroxy Acids for Use as Tissue-Engineering Scaffolds.- Fibrin Microbeads (FMB) As Biodegradable Carriers for Culturing Cells and for Accelerating Wound Healing.- Synthesis and Characterization of Hyaluronan-Based Polymers for Tissue Engineering.- Synthesis and Characterization of Chitosan Scaffolds for Cartilage-Tissue Engineering.- Characterization of a Calcium Phosphate-Based Matrix for rhBMP-2.- Methodologies for Processing Biodegradable and Natural Origin Scaffolds for Bone and Cartilage Tissue-Engineering Applications.- Alginates in Tissue Engineering.- Production and Surface Modification of Polylactide-Based Polymeric Scaffolds for Soft-Tissue Engineering.- Modification of Materials With Bioactive Peptides.- Isolation and Osteogenic Differentiation of Bone-Marrow Progenitor Cells for Application in Tissue Engineering.- Cell Seeding of Polymer Scaffolds.- Chondrocyte Isolation, Expansion, and Culture on Polymer Scaffolds.- Bioreactor Culture Techniques for Cartilage-Tissue Engineering.- Microscopic Methods for the Analysis of Engineered Tissues.- Transmission Electron Microscopy of Tissue-Polymer Constructs.- Application of Microscopic Methods for the Detection of Cell Attachment to Polymers.- Biochemical Methods for the Analysis of Tissue-Engineered Cartilage.- Real-Time Quantitative RT-PCR Assays.- Mechanical Testing of Cell-Material Constructs: A Review.

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