Biomedical Applications of Electrospinning and Electrospraying

Name: Biomedical Applications of Electrospinning and Electrospraying
Rating: 5 (3 reviews)

Naresh Kasoju · Hua Ye

2021年5月 · Woodhead Publishing

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Biomedical Applications of Electrospinning and Electrospraying describes the principles and laboratory set up for electrospinning and electrospraying, addressing a range of biomedical applications. Sections cover novel combinational approaches, such as electrospinning/spraying and 3D printing. Electrospinning has evolved from being a technique to prepare random networks of textile fibers to a technique to fabricate highly ordered patterns of biomedical materials of defined scale. The technological advancements in recent years with regard to the way the jet is facilitated, how the jet path is controlled, and how the fibers are collected have provided invaluable insights into controlled fabrication of a material of choice. Additionally, the electrospray technique has also evolved from being a technique to prepare food formulations to a technique to prepare cell encapsulated beads for transplantation in clinics. Several innovations in this line, such as those leading to core-shell materials have tremendously changed the way the technique is used. Thus, a combinational approach using electrospinning, electrospraying and 3D printing has emerged. - Introduces electrospinning and electrospraying concepts and describes state-of-the-art methodologies - Provides comprehensive coverage of electrospun/spray materials in drug delivery, tissue engineering and biosensor applications - Presents details of instrumentation involved, along with novel devices for bench to bedside translation, - Covers novel combinational approaches using electrospinning, electrospraying and 3D printingIntroduces electrospinning and electrospraying concepts and describes state-of-the-art methodologies - Provides comprehensive coverage of electrospun/spray materials in drug delivery, tissue engineering and biosensor applications - Presents details of instrumentation involved, along with novel devices for bench to bedside translation - Covers novel combinational approaches using electrospinning, electrospraying and 3D printing

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作者简介

Dr. Naresh Kasoju is a Scientist at Sree Chitra Tirunal Institute for Medical Sciences and Technology, Thiruvananthapuram, Kerala. He obtained his Ph.D. in Biotechnology from Indian Institute of Technology and postdoctoral experience from Institute of Macromolecular Chemistry, Prague, Czech Republic and University of Oxford, Oxford, UK. His research interests include mesenchymal stem cells-based therapeutics for regenerative medicine, natural polymers-based biomaterials for biomedical applications, and 3D bioprinting based approaches for tissue engineering. He filed 06 Indian patents and 03 Indian design registrations and has published 70+ articles, with 4500+ citations. He's editor of 3 books, guest editor for 3 special issues, editorial board member for 2 journals and reviewer for 50+ journals. He's a member of National Academy of Science, India and Royal Society of Biology, UK. Recently, he received Young Scientist Award by Indian Academy of Biomedical Sciences, Lucknow for his outstanding contributions in biomaterials, stem cells and tissue engineering.

Prof. Ye obtained DPhil in Biochemical Engineering from University of Oxford, Oxford, UK in 2005, followed by post-doctoral training from Department of Chemical Engineering, Imperial College London, UK, before joining University of Oxford, Oxford, UK in 2007. Within the broad research area of tissue engineering and stem cell technologies, Prof. Ye’s specific research interests lie in three interconnected areas, i.e. in vitro cancer model, biomaterials and bioreactor for tissue engineering and stem cell expansion. Prof. Ye is a Fellow of Linacre College, University of Oxford, Oxford, UK.