Towards 4D Bioprinting
Autor: | Adrian Neagu |
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EAN: | 9780128187456 |
eBook Format: | |
Sprache: | Englisch |
Produktart: | eBook |
Veröffentlichungsdatum: | 17.11.2022 |
Kategorie: | |
Schlagworte: | Bioengineering Biological sciences Biological sciences quantitative methods Biological substances Biology experimental methods Biomechanics Biomedical engineering Biophysics Biotechnology Care Cell Cellular process Chemical mixture Compu |
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Towards 4D Printing presents the current state of three-dimensional (3D) bioprinting and its recent offspring, 4D bioprinting. These are attractive approaches to tissue engineering because they hold the promise of building bulky tissue constructs with incorporated vasculature. Starting with the discussion of 3D and 4D printing of inanimate objects, the book presents several 3D bioprinting techniques and points out the challenges imposed by living cells on the bioprinting process. It argues that, in order to fine-tune the bioprinter, one needs a quantitative analysis of the conditions experienced by cells during printing. Once the printing is over, the construct evolves according to mechanisms known from developmental biology. These are described in the book along with computer simulations that aim to predict the outcome of 3D bioprinting.In addition, the book provides the latest information on the principles and applications of 4D bioprinting, such as for medical devices and assistive technology. The last chapter discusses the perspectives of the field. This book provides an up-to date description of the theoretical tools developed for the optimization of 3D bioprinting, presents the morphogenetic mechanisms responsible for the post-printing evolution of the bioprinted construct and describing computational methods for simulating this evolution, and discusses the leap from 3D to 4D bioprinting in the light of the latest developments in the field. Most importantly, Towards 4D Printing explains the importance of theoretical modeling for the progress of 3D and 4D bioprinting. - Presents theoretical tools needed for the optimization of the bioprinting process - Describes the principles and implementation of computer simulations needed to predict the outcome of 3D bioprinting - Analyzes the distinctive features of 4D bioprinting along with its applications and perspectives
Dr. Adrian Neagu received his M.S. in Physics from the West University of Timisoara, Romania (1991). He worked at Freie Universität Berlin as a research fellow of the German Academic Exchange Service (Deutscher Akademischer Austauschdienst, DAAD) (1992-1993). In 2002, he obtained his PhD in Statistical Physics from the Babes-Bolyai University of Cluj-Napoca, Romania. As a postdoctoral fellow in the research group led by Prof. Gabor Forgacs at the University of Missouri, Columbia, MO, USA, he studied the self-assembly of multicellular systems (2002-2003). He applied methods of statistical physics to develop computer simulations aimed at predicting the outcome of three-dimensional (3D) bioprinting of living tissue constructs [1-3]. He teaches Biophysics at the Victor Babes University of Medicine and Pharmacy Timisoara, as Associate Professor (2004-2006), and Professor (2006-present). In 2008, he was assigned Adjunct Professor at the University of Missouri, Columbia, USA. Here, as a visiting scholar, he worked on computational aspects of 3D tissue bioprinting as co-principal investigator of a National Science Foundation grant, FIBR-0526854 entitled 'Understanding and employing multicellular self-assembly' (2006-2010). Dr. Neagu is coauthor of a patent on 3D tissue printing (United States Patent No. 8241905/14.08.2012), and editor of the Journal of 3D Printing in Medicine.
Dr. Adrian Neagu received his M.S. in Physics from the West University of Timisoara, Romania (1991). He worked at Freie Universität Berlin as a research fellow of the German Academic Exchange Service (Deutscher Akademischer Austauschdienst, DAAD) (1992-1993). In 2002, he obtained his PhD in Statistical Physics from the Babes-Bolyai University of Cluj-Napoca, Romania. As a postdoctoral fellow in the research group led by Prof. Gabor Forgacs at the University of Missouri, Columbia, MO, USA, he studied the self-assembly of multicellular systems (2002-2003). He applied methods of statistical physics to develop computer simulations aimed at predicting the outcome of three-dimensional (3D) bioprinting of living tissue constructs [1-3]. He teaches Biophysics at the Victor Babes University of Medicine and Pharmacy Timisoara, as Associate Professor (2004-2006), and Professor (2006-present). In 2008, he was assigned Adjunct Professor at the University of Missouri, Columbia, USA. Here, as a visiting scholar, he worked on computational aspects of 3D tissue bioprinting as co-principal investigator of a National Science Foundation grant, FIBR-0526854 entitled 'Understanding and employing multicellular self-assembly' (2006-2010). Dr. Neagu is coauthor of a patent on 3D tissue printing (United States Patent No. 8241905/14.08.2012), and editor of the Journal of 3D Printing in Medicine.