Native macromolecule-based 3D tissues repair / Jin-Ye Wang.
Material type:![Text](/opac-tmpl/lib/famfamfam/BK.png)
- text
- computer
- online resource
- 9789814551939
- 9814551937
- Polymers in medicine
- Tissue engineering
- Regeneration (Biology)
- Polymers -- therapeutic use
- Tissue Engineering
- Regeneration
- Polymères en médecine
- Génie tissulaire
- Régénération (Biologie)
- HEALTH & FITNESS -- Holism
- HEALTH & FITNESS -- Reference
- MEDICAL -- Alternative Medicine
- MEDICAL -- Atlases
- MEDICAL -- Essays
- MEDICAL -- Family & General Practice
- MEDICAL -- Holistic Medicine
- MEDICAL -- Osteopathy
- Polymers in medicine
- Regeneration (Biology)
- Tissue engineering
- 610.28 23
- R857.P6 W36 2014eb
- QT 37.5.P7
Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
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OPJGU Sonepat- Campus | E-Books EBSCO | Available |
Includes bibliographical references and index.
Native polymer-based 3D substitutes in cardiovascular tissue engineering -- Native polymer-based 3D substitutes for nerve regeneration -- Native polymer-based 3D substitutes for cartilage repair -- Native polymer-based 3D substitutes for bone repair -- Native polymer-based 3D substitutes in plastic surgery -- Nanofabrication techniques in native polymer-based 3D substitutes -- Native polymer-based 3D substitutes as alternatives with slow-release functions.
Print version record.
With the increasing worldwide prevalence of tissue damage, there is an urgent, growing demand for tissue engineering materials to mimic autologous tissue for surgical repair. Many attempts have been made to produce long-lasting, biocompatible implants. To overcome the mechanical and biological limitations of synthetic implants, the development of native macromolecule-based 3D substitutes as alternatives has been the latest focus. Advances in nanofabrication and controlled-release technology have vastly improved the potential of such 3D substitutes in influencing cell and tissue performance. This book is an overview of the current state of knowledge in the field of native macromolecule-based 3D substitutes for the repair of several tissue types, including bone, cartilage, vascular, and many more.
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