Regenerative Engineering Advanced Materials Science Principles CRC Press Series In Regenerative Engineering Series
Coordonnateurs : Khan Yusuf, Laurencin Cato T.
This book focuses on advances made in both materials science and scaffold development techniques, paying close attention to the latest and state-of-the-art research. Chapters delve into a sweeping variety of specific materials categories, from composite materials to bioactive ceramics, exploring how these materials are specifically designed for regenerative engineering applications. Also included are unique chapters on biologically-derived scaffolding, along with 3D printing technology for regenerative engineering.
Features:
- Covers the latest developments in advanced materials for regenerative engineering and medicine.
- Each chapter is written by world class researchers in various aspects of this medical technology.
- Provides unique coverage of biologically derived scaffolding.
- Includes separate chapter on how 3D printing technology is related to regenerative engineering.
- Includes extensive references at the end of each chapter to enhance further study.
The Role of Advanced Materials Science in Regenerative Engineeering. Advanced Polymers for Regenerative Engineering. Bioactive Ceramics and Metals for Regenerative Engineering. Composite Materials for Regenerative Engineering. Cell-Material Interactions. Substrate Guided Cell Behavior. Design of Complex Scaffolds and Scaffold Interfaces for Regenerative Engineering. Hydrogels in Regenerative Engineering. Nanoscale Materials and Scaffolds. 3-D Printing Technology for Regenerative Engineering. Biologically Derived Scaffolding. Self-Healing Materials. New Frontiers
Yusuf Khan is an Assistant Professor in both Departments of Biomedical Engineering and Chemical Engineering at the University of Conneticut. He is also an Assistant Professor within the Department of Surgery at the University of Connecticut Health Sciences Center. Dr. Khan was one of the fouding members of the Institute for Regenerative Engineering at the Center. His primary research is in biological materials related to organ regeneration.
Date de parution : 06-2024
17.8x25.4 cm
Date de parution : 04-2018
17.8x25.4 cm
Thèmes de Regenerative Engineering :
Mots-clés :
Water Soluble Tetrazolium Salt Assay; Regenerative Engineering; Stem Cell Fate Determination; Regenerative medicine; Low RNA Concentration; Advanced Materials for Regenerative Medicine; CuAAC Reaction; 3-D Printing for Medical Applications; Joint Replacement Implants; Self-Healing Biomaterials; Adipose Derived Stem Cells; Cell-Material interactions; Control Tissue Samples; Mary Badon; Osteogenic Differentiation; Liangju Kuang; Tissue Engineering; Paul A; Lengemann; Meng Deng; MC3T3 E1 Cell; Changchun Zhou; Inkjet Bioprinting; Xiangfeng Li; Bioactive Ceramics; Junqiu Cheng; Gelatin Beads; Hongsong Fan; BMs; Xingdong Zhang; Apatite Forming Ability; Mengqian Liu; Musculoskeletal Tissues; Shyni Varghese; Bone Marrow Derived Stem Cells; Cheryl T; Gomillion; Musculoskeletal Tissue Regeneration; Karen J; L; Burg; Click Reaction; Steven E; Ellis; Rotator Cuff; Arijit Bhattacharjee; Adipogenic Markers; Garima Lohiya; Bone Tissue Engineering; Aman Mahajan; Nanocomposite Scaffolds; M; Sriram; Click Chemistry; Dhirendra S; Katti; Nathan J; Castro; Wei Zhu; Haitao Cui; Se-Jun Lee; Lijie Grace Zhang; Cato T; Laurencin; Naveen Nagiah