By Murugan Ramalingam, Esmaiel Jabbari, Seeram Ramakrishna, Ali Khademhosseini
A state of the art examine the appliance of micro and nanotechnologies in regenerative medicine
The region on the interface of micro/nanotechnology and stem cells/tissue engineering has noticeable an explosion of job lately. This publication presents a much-needed evaluation of those intriguing advancements, protecting all facets of micro and nanotechnologies, from the elemental rules to the most recent examine to functions in regenerative medication.
Written and edited via the head researchers within the box, Micro and Nanotechnologies in Engineering Stem Cells and Tissues describes advances in fabric platforms in addition to present concepts to be had for cellphone, tissue, and organ reviews. Readers will achieve great perception into the cutting-edge of stem cells and tissue engineering, and the best way to use the expertise of their personal study or medical trials. insurance comprises:
- Technologies for controlling or regulating stem phone and tissue growth
- Various engineering methods for stem mobilephone, vascular tissue, and bone regeneration
- The layout and processing of biocompatible polymers and different biomaterials
- Characterization of the interactions among cells and biomaterials
Unrivaled between books of this type, Micro and Nanotechnologies in Engineering Stem Cells and Tissues is the final word forward-looking reference for researchers in different disciplines, from engineering and fabrics technological know-how to biomedicine, and for somebody wishing to appreciate the tendencies during this transformative field.Content:
Chapter 1 Stem Cells and Nanotechnology in Tissue Engineering and Regenerative drugs (pages 1–26): Allison C. Bean and Rocky S. Tuan
Chapter 2 Nanofiber expertise for Controlling Stem cellphone capabilities and Tissue Engineering (pages 27–51): Shayanti Mukherjee, Jayarama Reddy Venugopal, Rajeswari Ravichandran, Murugan Ramalingam, Michael Raghunath and Seeram Ramakrishna
Chapter three Micro? and Nanoengineering techniques to constructing Gradient Biomaterials appropriate for Interface Tissue Engineering (pages 52–79): Serge Ostrovidov, Azadeh Seidi, Samad Ahadian, Murugan Ramalingam and Ali Khademhosseini
Chapter four Microengineered Polymer? and Ceramic?Based Biomaterial Scaffolds: A Topical evaluate on layout, Processing, and Biocompatibility houses (pages 80–118): Garima Tripathi and Bikramjit Basu
Chapter five man made Enroutes to Engineer Electrospun Scaffolds for Stem Cells and Tissue Regeneration (pages 119–141): Radhakrishnan Sridhar, Molamma P Prabhakaran and Seeram Ramakrishna
Chapter 6 Integrating Top?Down and Bottom?Up Scaffolding Tissue Engineering procedure for Bone Regeneration (pages 142–158): Yunqing Kang, Esmaiel Jabbari and Yunzhi Yang
Chapter 7 Characterization of the Adhesive Interactions among Cells and Biomaterials (pages 159–182): Kimberly M. Ferlin, David S. Kaplan and John P. Fisher
Chapter eight Microfluidic Formation of Cell?Laden Hydrogel Modules for Tissue Engineering (pages 183–201): Yuya Morimoto, Yukiko T. Matsunaga and Shoji Takeuchi
Chapter nine Micro? and Nanospheres for Tissue Engineering (pages 202–219): Huanan Wang, Sander C.G. Leeuwenburgh, Yubao Li and John A. Jansen
Chapter 10 Micro? and Nanotechnologies to Engineer Bone Regeneration (pages 220–235): Gaurav Lalwani, Yahfi Talukdar, Jason Rashkow and balajirainbow Sitharaman
Chapter eleven Micro? and Nanotechnology for Vascular Tissue Engineering (pages 236–260): Ryan S. Stowers and Laura J. Suggs
Chapter 12 program of Stem Cells in Ischemic middle sickness (pages 261–301): Gangapatnam Subrahmanyam and A. Sai Ravi Shankar
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Extra resources for Micro and Nanotechnologies in Engineering Stem Cells and Tissues
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5 Fabrication of electrospun nanofibers. (a) General electrospinning setup consisting of syringe filled with polymer solution that is pumped through a needle charged with a high-voltage power supply. When the electrostatic forces between the collector and the solution overcome the surface tension of the solution, the solution is pulled out of the Taylor cone into fine fibers that are deposited on the grounded collector. (b) Scanning electron microscopic image of randomly arranged poly(e-caprolactone) (PCL) nanofibers formed by electrospinning (scale bar ¼ 20 mm).
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Micro and Nanotechnologies in Engineering Stem Cells and Tissues by Murugan Ramalingam, Esmaiel Jabbari, Seeram Ramakrishna, Ali Khademhosseini