Tissue Engineering
Published on 27. August 2003
Book
Hardback
432 pages
978-0-13-041696-4 (ISBN)
Description
For senior-level and first-year graduate courses in Tissue Engineering, in departments of bioengineering; and for students researching tissue replacement and restorations; as well as students of biology medicine and life science working with primary and complex cell biology.
This text-the first in its field-lays the foundation for students studying tissue engineering. It provides a conceptual framework that includes exposure to all the necessary background material in all areas.
This text-the first in its field-lays the foundation for students studying tissue engineering. It provides a conceptual framework that includes exposure to all the necessary background material in all areas.
More details
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
College/higher education
Dimensions
Height: 244 mm
Width: 205 mm
Thickness: 24 mm
Weight
936 gr
ISBN-13
978-0-13-041696-4 (9780130416964)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Content
1. Introduction.
I. QUANTITATIVE CELL AND TISSUE BIOLOGY.
2. Tissue Organization.
3. Tissue Dynamics.
4. Morphogenesis.
5. Stem Cells.
6. The Cellular Fate Processes.
7. Coordination.
II. CELL AND TISSUE CHARACTERIZATION.
8. High-Throughput Biological Data.
9. Cell and Tissue properties.
10. Cell and Tissue Culture.
11. Gene Transfer.
III. ENGINEERING METHODS AND DESIGN.
12. Time Constants.
13. Scaling-up.
14. Cell Separation.
15. Biomaterial Scaffolds.
16. Tailoring Biomaterials.
IV. CLINICAL IMPLEMENTATION.
17. Conventional Approaches to Tissue Repair.
18. Host Integration.
19. Producing TE Therapies.
Tissue Engineering Study Problems.
Bibliography.
Index.
I. QUANTITATIVE CELL AND TISSUE BIOLOGY.
2. Tissue Organization.
3. Tissue Dynamics.
4. Morphogenesis.
5. Stem Cells.
6. The Cellular Fate Processes.
7. Coordination.
II. CELL AND TISSUE CHARACTERIZATION.
8. High-Throughput Biological Data.
9. Cell and Tissue properties.
10. Cell and Tissue Culture.
11. Gene Transfer.
III. ENGINEERING METHODS AND DESIGN.
12. Time Constants.
13. Scaling-up.
14. Cell Separation.
15. Biomaterial Scaffolds.
16. Tailoring Biomaterials.
IV. CLINICAL IMPLEMENTATION.
17. Conventional Approaches to Tissue Repair.
18. Host Integration.
19. Producing TE Therapies.
Tissue Engineering Study Problems.
Bibliography.
Index.