Advances on Modeling in Tissue Engineering: Computational Methods in Applied Sciences, cartea 20
Editat de Paulo R. Fernandes, Paulo Jorge Bártoloen Limba Engleză Paperback – 15 iul 2013
Tissue Engineering is a multidisciplinary field involving scientists from different fields. The development of mathematical methods is quite relevant to understand cell biology and human tissues as well to model, design and fabricate optimized and smart scaffolds.
The chapter authors are the distinguished keynote speakers at the first Eccomas thematic conference on Tissue Engineering where the emphasis was on mathematical and computational modeling for scaffold design and fabrication. This particular area of tissue engineering, whose goal is to obtain substitutes for hard tissues such as bone and cartilage, is growing in importance.
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Specificații
ISBN-13: 9789400736214
ISBN-10: 9400736215
Pagini: 184
Ilustrații: VIII, 176 p.
Dimensiuni: 155 x 235 x 10 mm
Greutate: 0.27 kg
Ediția:2011
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Computational Methods in Applied Sciences
Locul publicării:Dordrecht, Netherlands
ISBN-10: 9400736215
Pagini: 184
Ilustrații: VIII, 176 p.
Dimensiuni: 155 x 235 x 10 mm
Greutate: 0.27 kg
Ediția:2011
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Computational Methods in Applied Sciences
Locul publicării:Dordrecht, Netherlands
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Public țintă
ResearchCuprins
Cell mechanics: The role of simulation , by Christopher R. Jacobs and Daniel J. Kelly; Multiscale Modelling of Bone Tissue – Remodelling and Application to Scaffold Design , by Helder C. Rodrigues, Pedro G. Coelho, Paulo R. Fernandes; Nonlinear Elastic Scaffold Design, Modeling and Fabrication for Soft Tissue Engineering, by Scott J. Hollister, Claire G. Jeong, J. Jakob Schwiedrzik, Anna G. Mitsak, Heesuk Kang, Francesco Migneco; Computational techniques for selection of biomaterial scaffolds for tissue engineering, by S Checa, C Sandino, DP Byrne, DJ Kelly, D Lacroix and PJ Prendergast; Modelling bone tissue engineering. The role of scaffold microstructural anisotropy on new bone tissue formation, by José A. Sanz-Herrera, Manuel Doblaré and José M. García-Aznar; Geometric modeling and analysis of bone micro-structures as a base for scaffold design , by Y. Holdstein, L. Podshivalov, A. Fischer; Electrospinning and Tissue Engineering, by Geoffrey R Mitchell and Fred Davis; Biofabrication Strategies for Tissue Engineering, by Paulo Jorge Bártolo, Marco Domingos, Tatiana Patrício, Stefania Cometa, Vladimir Mironov
Recenzii
From the reviews:
“A new and revolutionary area emerging as a multidisciplinary field involving medicine, biology, and engineering is the focus of this book. … The book contains eight chapters and describes the state of computation modeling and fabrication in tissue engineering. … this book provides current information, including many examples, for experts in related areas.” (Idalia Flores, ACM Computing Reviews, February, 2012)
“A new and revolutionary area emerging as a multidisciplinary field involving medicine, biology, and engineering is the focus of this book. … The book contains eight chapters and describes the state of computation modeling and fabrication in tissue engineering. … this book provides current information, including many examples, for experts in related areas.” (Idalia Flores, ACM Computing Reviews, February, 2012)
Textul de pe ultima copertă
This book presents a collection of chapters describing the state of the art on computational modelling and fabrication in tissue engineering.
Tissue Engineering is a multidisciplinary field involving scientists from different fields. The development of mathematical methods is quite relevant to understand cell biology and human tissues as well to model, design and fabricate optimized and smart scaffolds.
The chapter authors are the distinguished keynote speakers at the first Eccomas thematic conference on Tissue Engineering where the emphasis was on mathematical and computational modeling for scaffold design and fabrication. This particular area of tissue engineering, whose goal is to obtain substitutes for hard tissues such as bone and cartilage, is growing in importance.
Tissue Engineering is a multidisciplinary field involving scientists from different fields. The development of mathematical methods is quite relevant to understand cell biology and human tissues as well to model, design and fabricate optimized and smart scaffolds.
The chapter authors are the distinguished keynote speakers at the first Eccomas thematic conference on Tissue Engineering where the emphasis was on mathematical and computational modeling for scaffold design and fabrication. This particular area of tissue engineering, whose goal is to obtain substitutes for hard tissues such as bone and cartilage, is growing in importance.
Caracteristici
presents recent developments of modelling and fabrication in tissue engineering; contribution by distinguished researchers in the field; reflects the multidisciplinary character of the field from cell biology to scaffold material and fabrication.