Biophysical and Chemical Properties of Collagen : Biomedical Applications
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| Main Authors | , |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
IOP Publishing,
[2020]
|
| Edition | First edition. |
| Series | Biophysical techniques series (Menlo Park, Calif.)
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9780750320962 |
| DOI | 10.1088/2053-2563/ab2c6b |
| Physical Description | 1 online zdroj : ilustrace. |
Cover
Table of Contents:
- 15. Applications of biosynthetic materials
- 15.1. Vascular devices
- 15.2. Hernia, ligament and other options
- 16. Collagen applications in tissue engineering and regenerative medicine
- 16.1. Fabricated collagen as a supporting structure
- 16.2. ACM as a supporting structure
- 17. Coating of biomedical materials with collagen
- 17.1. Coating of synthetic polymers
- 17.2. Collagen on metals and inorganic materials
- 18. Composites of collagen with other materials
- 18.1. Composites with other biopolymers
- 18.2. Composites with synthetic polymers
- 18.3. Composites with inorganic materials
- 18.4. Composites with bioactive entities
- part V. Conclusions. 19. Concluding remarks.
- part I. Introduction. 1. Introduction
- 1.1. Overview
- part II. The structure and biochemistry of collagen. 2. The structure of collagen
- 2.1. Composition
- 2.2. X-ray diffraction studies
- 2.3. Different collagen types
- 2.4. Other proteins with a triple-helix
- 2.5. Protein sequences
- 3. Biosynthesis and biodegradation of collagen
- 3.1. Biosynthetic pathway
- 3.2. Selected secondary modification enzymes in collagen biosynthesis
- 3.3. Degradation of collagen in tissues
- 4. Collagen assemblies
- 4.1. Ordered collagen structures
- 4.2. Fibrillogenesis
- 5. Tissue arrangement
- 5.1. Formation of new tissue
- 5.2. Native crosslinking
- 5.3. Examples of tissue structure
- 5.4. Mineralisation
- 5.5. Mechanical properties
- 6. Collagen stability
- 6.1. Molecular stability
- 6.2. Solvent effects on stability
- 6.3. Peptide models to study stability
- 6.4. Other uses for peptide models
- 7. Interactions
- 7.1. Describing interactions with other molecules
- 7.2. Interactions with other collagens
- 7.3. Interactions with proteoglycans
- 7.4. Interaction with globular proteins
- 7.5. Interactions with the immune system
- 7.6. Antibodies to collagens as biochemical reagents
- part III. The production of collagen-based biomaterials. 8. Production of tissue-derived collagens
- 8.1. Tissue and fibrous collagen
- 8.2. Acellular matrix
- 8.3. Soluble collagens
- 8.4. Production of collagen in cell culture
- 8.5. Fractionation of soluble collagens
- 8.6. Further purification of soluble collagens
- 9. Production of recombinant collagens
- 9.1. Recombinant animal collagen production
- 9.2. Recombinant bacterial collagen production
- 9.3. Recombinant 'bioengineered' adaptations to collagen structures
- 9.4. Recombinant chimeric fusion proteins
- 9.5. De novo designed structures
- 10. Evaluation of the quality of collagen preparations
- 10.1. Collagen quantitation
- 10.2. Solution properties
- 10.3. Electrophoretic methods
- 10.4. Optical methods
- 10.5. Biophysical methods
- 11. Fabrication of biomedical products
- 11.1. Gels and hydrogels
- 11.2. Foams and sponges
- 11.3. Reconstituted fibres
- 11.4. Films and membranes
- 11.5. Beads and particles
- 11.6. Fibrous capsule materials
- 11.7. Other technologies
- 11.8. Sterilisation
- 12. Chemical modifications
- 12.1. Chemical crosslinking methods
- 12.2. Physical crosslinking
- 12.3. Assessing the effectiveness of crosslinking
- 12.4. Site-specific chemical modifications
- part IV. Applications of collagen in medical products. 13. Applications for intact tissue collagen
- 13.1. Stabilised tissues
- 13.2. Acellular matrix
- 14. Applications for purified collagen
- 14.1. Gels and hydrogels
- 14.2. Foams and sponges
- 14.3. Films and membranes
- 14.4. Beads and particles
- 14.5. Reconstituted fibres