Titlebook: Microscale Technologies for Cell Engineering; Ankur Singh,Akhilesh K. Gaharwar Book 2016 Springer International Publishing Switzerland 201

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Ankur Singh,Akhilesh K. GaharwarCovers the stem cell manufacturing in labs for fundamental studies and transformative bioengineering applications in tissue engineering.Highlights the tremendous advances of microscale technologies in

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978-3-319-34932-9Springer International Publishing Switzerland 2016

閃光東本

Microscale Technologies for Engineering Complex Tissue Structuresolds serve as synthetic extracellular matrices that organize the embedded cells into a three-dimensional (3D) architecture and present them with stimuli for their growth and maturation. Tissue engineering techniques have been applied to many types of tissues; however, numerous challenges regarding t

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Photochemical Patterning of Cellular Microenvironmentss. Recently, a number of innovations have been made toward the goal of using light-mediated reactions to manipulate the chemical and physical nature of hydrogel-based cellular microenvironments with spatiotemporal control. For example, using photoaddition and photocleavage reactions it is possible t

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Microfabrication of Patterned Co-cultures for Controllable Cell–Cell Interfacesion, behavior, and response. The integration of microfabrication techniques to biological applications has enabled custom microengineering of biomimetic microenvironments for in vitro studies. Over the years, numerous in vitro studies have been carried out to investigate and understand the cellular

Debility

3D Bioprinting Technologies for Cellular Engineeringd geometrical forms (i.e. individual cells, cell agglomerates, tissues, and organs). Collectively, these methods offer many advantages over scaffold-based fabrication, including the ability to pattern complex cellular constructs on relevant length scales, the ability to tailor and modulate the extra

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Stem Cell and Stem Cell-Derived Molecular Therapies to Enhance Dermal Wound Healingers, such as venous leg ulcers, pressure ulcers, and diabetic foot ulcers, place a significant burden on healthcare systems and severely lower the quality of life for patients. Advanced wound care therapies are needed to promote wound closure in recalcitrant wounds. Exogenous mesenchymal stem cell d