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Bio-Instructive Scaffolds for Musculoskeletal Tissue Engineering and Regenerative Medicine

BuchGebunden
252 Seiten
Englisch
Academic Presserschienen am26.10.2016
Bio-Instructive Scaffolds for Musculoskeletal Tissue Engineering and Regenerative Medicine explores musculoskeletal tissue growth and development across populations, ranging from elite athletes to the elderly. The regeneration and reparation of musculoskeletal tissues present the unique challenges of requiring both the need to withstand distinct forces applied to the body and ability to support cell populations. The book is separated into sections based on tissue type, including bone, cartilage, ligament and tendon, muscle, and musculoskeletal tissue interfaces. Within each tissue type, the chapters are subcategorized into strategies focused on cells, hydrogels, polymers, and other materials (i.e. ceramics and metals) utilized in musculoskeletal tissue engineering applications. In each chapter, the relationships that exist amongst the strategy, stem cell differentiation and somatic cell specialization at the intracellular level are emphasized. Examples include intracellular signaling through growth factor delivery, geometry sensing of the surrounding network, and cell signaling that stems from altered population dynamics.mehr
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Produkt

KlappentextBio-Instructive Scaffolds for Musculoskeletal Tissue Engineering and Regenerative Medicine explores musculoskeletal tissue growth and development across populations, ranging from elite athletes to the elderly. The regeneration and reparation of musculoskeletal tissues present the unique challenges of requiring both the need to withstand distinct forces applied to the body and ability to support cell populations. The book is separated into sections based on tissue type, including bone, cartilage, ligament and tendon, muscle, and musculoskeletal tissue interfaces. Within each tissue type, the chapters are subcategorized into strategies focused on cells, hydrogels, polymers, and other materials (i.e. ceramics and metals) utilized in musculoskeletal tissue engineering applications. In each chapter, the relationships that exist amongst the strategy, stem cell differentiation and somatic cell specialization at the intracellular level are emphasized. Examples include intracellular signaling through growth factor delivery, geometry sensing of the surrounding network, and cell signaling that stems from altered population dynamics.
Details
ISBN/GTIN978-0-12-803394-4
ProduktartBuch
EinbandartGebunden
Erscheinungsjahr2016
Erscheinungsdatum26.10.2016
Reihen-Nr.C2014-0-04318-3
Seiten252 Seiten
SpracheEnglisch
Gewicht550 g
Artikel-Nr.38962986
Rubriken
GenreSachbuch

Inhalt/Kritik

Inhaltsverzeichnis
Part I: Introduction Chapter 1: Bio-Instructive Cues in Scaffolds for Musculoskeletal Tissue Engineering and Regenerative Medicine Chapter 2: Functionalizing With Bioactive Peptides to Generate Bio-Instructive Scaffolds Part II: Bone Chapter 3: Bio-Instructive Scaffolds for Bone Regeneration Part III: Tendon/Ligament Chapter 4: Bio-Instructive Scaffolds for Tendon/Ligament Regeneration Part IV: Cartilage Chapter 5: Bio-Instructive Scaffolds for Cartilage Regeneration Part V: Muscle Chapter 6: Ultrastructure and Biomechanics of Skeletal Muscle ECM: Implications in Tissue Regeneration Chapter 7: Bio-Instructive Scaffolds for Muscle Regeneration: NonCrosslinked Polymers Chapter 8: Bio-Instructive Scaffolds for Skeletal Muscle Regeneration: Conductive Materials Part VI: Musculoskeletal Interfaces Chapter 9: Bio-Instructive Scaffolds for Musculoskeletal Interfacesmehr

Autor

Justin Brown is an Associate Professor of Biomedical Engineering at the Pennsylvania State University. He received his Ph.D. (Biomedical Engineering) and studied as a postdoctoral fellow (Cell and Molecular Biology) at the University of Virginia. His Ph.D. research focused on the use of novel biodegradable polyphosphazenes and poly(L-lactide) to construct novel scaffolds for bone tissue engineering presenting both micro and nanostructures. His postdoctoral research focused on MAPK signaling in osteoblasts in response to synthetic nanofiber architectures. His current research interests are fundamental mechanisms stem cells use to sense and respond to translational biomaterial interfaces.Brittany Banik is a Graduate Research Assistant in the Department of Biomedical Engineering at The Pennsylvania State University. She received a B.S. in Bioengineering and minor in Mathematical Sciences from Clemson University. She currently works as a National Science Foundation Graduate Research Fellowship Program (NSF GRFP) fellow in Dr. Justin Brown's Musculoskeletal Regenerative Engineering Laboratory. Her Ph.D. research investigates a novel scaffold design for tendon tissue engineering. She has previously been involved in projects related to nanomedicine, drug delivery, and cellular mechanotransduction.
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