Edited by three of the top researchers in the field of tissue engineering and nanomedicine, with contributions from a team of pioneers and well-known leading experts in the biomedical field, this book presents the latest nano/microtechnologies used to manipulate stem cell behaviors, which is a critical area for regenerative medicine. It covers and details cutting-edge research in nano/microfabrication techniques and biomaterials for various tissue/organ, such as bone, cartilage, craniofacial, osteochondral, muscle, bladder and cardiovascular tissue, etc., regenerations.
Edited by three of the top researchers in the field of tissue engineering and nanomedicine, with contributions from a team of pioneers and well-known leading experts in the biomedical field, this book presents the latest nano/microtechnologies used to manipulate stem cell behaviors, which is a critical area for regenerative medicine. It covers and details cutting-edge research in nano/microfabrication techniques and biomaterials for various tissue/organ, such as bone, cartilage, craniofacial, osteochondral, muscle, bladder and cardiovascular tissue, etc., regenerations.
Lijie Grace Zhang is assistant professor in the Department of Mechanical and Aerospace Engineering and the Department of Medicine at the George Washington University, USA. She is also director of the Bioengineering Laboratory for Nanomedicine and Tissue Engineering at the university. Ali Khademhosseini is associate professor at the Harvard-MIT Division of Health Sciences and Technology, Brigham and Women's Hospital, and Harvard Medical School as well as associate faculty at the Wyss Institute for Biologically Inspired Engineering, Harvard University, USA. He is also junior principal investigator at the World Premier International-Advanced Institute for Materials Research, Tohoku University, Japan, where he directs a satellite laboratory. Thomas J. Webster is department chair of chemical engineering at Northeastern University, USA. His research explores the use of nanotechnology in numerous applications.
Inhaltsangabe
Nano and Microtechnology. Nano/Microfibrication Techniques for Tissue and Organ Regeneratio. Three Dimensional Micropatterning of Biomaterial Scaffolds for Tissue Engineering. Nanobiotechnology and Biomaterials for Regenerative Medicine. Micro- and Nanotechnology Engineering Strategies for Tissue Interface Regeneration and Repair. Spatiotemporal Genetic Control of Cellular Systems. Biomimetic Design of Extracellular Matrix-like Substrate for Tissue Regeneration. Degradable Elastomers for Tissue Regeneration. Protein Engineering Strategies for Modular, Responsive, and Spatially Organized Biomaterials. Tissue and Organ Regeneration. Design and Fabrication of Biomimetic Microvascular Architecture. The Self-Assembly Process of Articular Cartilage and Self-Organization in Tissue Engineering. Environmental Factors in Cartilage Tissue Engineering. Bone Regenerative Engineering: The Influence of Micro and Nano Dimension. Stem Cell and Bone Regeneration. Notch Signaling Biomaterials and Craniofacial Regeneration. Stem Cell-Based Dental, Oral and Craniofacial Tissue Engineering. Engineering Functional Bone Grafts for Craniofacial Regeneration. Nanotechnology in Osteochondral Regeneration. Aortic Heart Valve Tissue Regeneration. Micro and Nanotechnology in Vascular Regeneration. Micro- and Nanofabrication Approaches to Cardiac Tissue Engineering. Engineering of Skeletal Muscle Regeneration: Principles, Current State and Challenges.
Nano and Microtechnology. Nano/Microfibrication Techniques for Tissue and Organ Regeneratio. Three Dimensional Micropatterning of Biomaterial Scaffolds for Tissue Engineering. Nanobiotechnology and Biomaterials for Regenerative Medicine. Micro- and Nanotechnology Engineering Strategies for Tissue Interface Regeneration and Repair. Spatiotemporal Genetic Control of Cellular Systems. Biomimetic Design of Extracellular Matrix-like Substrate for Tissue Regeneration. Degradable Elastomers for Tissue Regeneration. Protein Engineering Strategies for Modular, Responsive, and Spatially Organized Biomaterials. Tissue and Organ Regeneration. Design and Fabrication of Biomimetic Microvascular Architecture. The Self-Assembly Process of Articular Cartilage and Self-Organization in Tissue Engineering. Environmental Factors in Cartilage Tissue Engineering. Bone Regenerative Engineering: The Influence of Micro and Nano Dimension. Stem Cell and Bone Regeneration. Notch Signaling Biomaterials and Craniofacial Regeneration. Stem Cell-Based Dental, Oral and Craniofacial Tissue Engineering. Engineering Functional Bone Grafts for Craniofacial Regeneration. Nanotechnology in Osteochondral Regeneration. Aortic Heart Valve Tissue Regeneration. Micro and Nanotechnology in Vascular Regeneration. Micro- and Nanofabrication Approaches to Cardiac Tissue Engineering. Engineering of Skeletal Muscle Regeneration: Principles, Current State and Challenges.
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