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Engineering 3D Tissue Test Systems

Editat de Karen J.L. Burg, Didier Dréau, Timothy Burg
en Limba Engleză Paperback – 27 iul 2017
Engineering 3D Tissue Test Systems provides an introduction to, and unique coverage of, a rapidly evolving area in biomaterials engineering. It reveals the current and future research responses, the current and future diagnostic applications, and provides a comprehensive overview to foster innovation. It offers insight into the importance of 3D systems and their use as benchtop models, spanning applications from basic scientific research to clinical diagnostics. Methods and limitations of building 3D tissue structures are evaluated, with attention given to the cellular, polymeric, and fabrication instrumentation components. The book covers the important aspects of polymeric tissue test systems, highlighting the needs and constraints of the industry, and includes a chapter on regulatory and pricing issues.
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Specificații

ISBN-13: 9781138745674
ISBN-10: 1138745677
Pagini: 434
Ilustrații: 68 Illustrations, color; 28 Illustrations, black and white
Dimensiuni: 156 x 234 x 29 mm
Greutate: 0.54 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press

Cuprins

Chapter 1 Introduction to 3D Test Systems
Karen J. L. Burg, Didier Dréau, and Timothy Burg
Section I Biofabrication Considerations
Chapter 2 Biofabrication
Jordon Gilmore and Timothy Burg
Chapter 3 Bioreactor Instrumentation and Control for 3D Cellular and
Tissue Systems
Steve Warren
Chapter 4 Control of 3D Environment: Redesign of the Flow Loop
Bioreactor to Control Mitral Valve Regurgitation
Patrick S. Connell, Dragoslava P. Vekilov,
and K. Jane Grande-Allen
Chapter 5 Nipple and Breast Construction: In Vitro and In Vivo Assessment
Maria Yanez, Scott Collins, and Thomas Boland
Chapter 6 3D Cancer Spheroid Biofabrication Using Thermal Inkjet-Based
Bioprinting for Rapid Screening
Jorge I. Rodríguez-Dévora, Christopher Moody, Aesha Desai,
Karen J. L. Burg, and Delphine Dean
Section II Materials Considerations
Chapter 7 Control Testing and Effect of Manufacturing Parameters on
the Biocompatibility of Polypropylene Mesh Implants
Ahmed El-Ghannam
Chapter 8 Scaffolds for 3D Model Systems in Bone Regenerative
Engineering
Keshia Ashe, Seth Malinowski, Yusuf Khan, and Cato T. Laurencin
Chapter 9 Engineered Composites for 3D Mammary Tissue Systems
Cheryl T. Gomillion, Chih-Chao Yang, Didier Dréau, and
Karen J. L. Burg
Chapter 10 Mineralized 3D Culture Systems for Studying Bone Metastatic
Breast Cancer
Frank He, Siyoung Choi, Lara A. Estroff, and Claudia Fischbach
Chapter 11 Design Considerations for 3D Cardiovascular Tissue Scaffolds
Scott Cooper, Christopher Moraes, and Richard L. Leask
Section III Biological Considerations
Chapter 12 Pro- and Anti-Inflammatory Cytokine Signaling within 3D
Tissue Models
Stephen L. Rego, Tian McCann, and Didier Dréau
Chapter 13 Cell–Cell Communications through Gap Junctions and Cancer
in 3D Systems
Stephanie Nicole Shishido and Thu Annelise Nguyen
Chapter 14 Advances in Breast Stem Cell Knowledge through 3D Systems
Kerri W. Kwist and Brian W. Booth
Chapter 15 Shape Matters: Understanding the Breast through 3D
Tissue Culture Models
Lucia Speroni, Ana M. Soto, and Carlos Sonnenschein
Chapter 16 Cells and Tissue Structures in Cardiovascular 3D Tissue Systems
Justin McMahan, Rachel Hybart, and C. LaShan Simpson
Chapter 17 Signaling and Architectural Cues Necessary for 3D Diabetic
Tissue Models
Rosalyn D. Abbott and David L. Kaplan
Chapter 18 Optimizing 3D Models of Engineered Skeletal Muscle
Megan E. Kondash, Brittany N. J. Davis, and George A. Truskey
Chapter 19 Recapitulating the Microenvironment of Glioblastoma
Multiforme Using 3D Tissue Culture Models
Meghan Logun, Steven Stice, and Lohitash Karumbaiah
Section IV Business Considerations
Editor’s Note on Business Considerations
Chapter 20 Bringing Regenerative Medicine to Patients: The Coverage,
Coding, and Reimbursement Processes
Khin-Kyemon Aung, Scott Levy, and Sujata K. Bhatia

Notă biografică

Karen J. L. Burg earned a B.S. in chemical engineering with a minor in biochemical engineering from North Carolina State University, an M.S. in bioengineering from Clemson University, and a Ph.D. in bioengineering with a minor in experimental statistics from Clemson University. She completed a tissue engineering postdoctoral research fellowship at Carolinas Medical Center in Charlotte, North Carolina, later serving as Clemson University Interim Vice Provost for Research & Innovation, Clemson University Interim Vice Provost and Dean of the Graduate School, and Kansas State University Vice President for Research. She is currently Harbor Lights Endowed Chair of Small Animal Medicine and Surgery at the University of Georgia and Hunter Endowed Chair Emerita at Clemson University. Karen is a past President of the Society For Biomaterials and past member of the Tissue Engineering and Regenerative Medicine International Society North American Council. She currently serves as a member of the Board of Directors for the National Academy of Inventors as well as a member of the College of Fellows Executive Board for the American Council on Education. Honors to Dr. Burg include the 2001 National Science Foundation Faculty Early Career Award, 2001 Presidential Early Career Award for Scientists and Engineers; she is an American Council on Education Fellow, a Fellow of the American Institute for Medical and Biological Engineering, a Fellow of the Biomedical Engineering Society, a Fellow of the National Academy of Inventors, and a Fellow of the International Union of Societies for Biomaterials Science and Engineering.
Didier Dréau earned a B.S. in physiology and cell biology from Rennes I University (Rennes, France), an M.S. in Molecular and Cell Biology from Blaise Pascal University (Clermont-Ferrand, France) and a Ph.D. in Biochemistry, Molecular and Cell Biology with emphasis on Immunology from the Ecole Nationale Supérieure Agronomique (ENSA) de Rennes (France). Following his post-doctoral training in immunology and immunotherapy and serving as Research Scientist at Carolinas Medical Center, Dr. Dréau currently is an Associate Professor of Biology at the University of North Carolina at Charlotte. Dr. Dréau also serves as the Honors in Biological Sciences Program Director in the Department of Biological Sciences, and the Area Leader for the Applied Cancer Technology and Therapeutics in the Center for Biomedical Engineering and Science at the University of North Carolina at Charlotte. In addition to his teaching of cancer biology and physiology, Dr. Dréau, a member of the American Association for Cancer Research, serves on multiple granting agency review panels along with scientific journal editorial boards.
Timothy Burg earned a B.S. in Electrical Engineering from the University of Cincinnati and an M.S. and Ph.D. in electrical engineering from Clemson University. He is currently Professor of Veterinary Biosciences & Diagnostic Imaging in the University of Georgia College of Veterinary Medicine and Director of the University of Georgia Office of Science, Technology, Engineering and Mathematics Education. Dr. Burg has extensive experience in industrial applications of robotics and nonlinear control design tools and the academic investigation of the basis and future directions of these techniques. Dr. Burg is working with students and other collaborators to build a unique biofabrication system that assembles tissues in an assembly line fashion. One component of this system, a bio-printer that uses ink-jet printing to place living cells, was developed during an US National Science Foundation grant. Dr. Burg strives to connect the exciting research at the university level with K-12 students.

Recenzii

"Engineering 3D Tissue Test Systems is a comprehensive book that covers the areas of biofabrication, materials, and biology for engineering 3D tissues. Readers can gain tremendous amounts of knowledge on 3D printing, biofabrication, model systems, and test methods from this book. I would definitely recommend this book to my colleagues and students."
—Kai Zhang, Sichuan University, Chengdu, China
"…an excellent asset for those seeking knowledge on the creation of 3D cell culture systems and their potential to improve our understanding of human biology."
— Matt Gevaert, KIYATEC Inc., Greenville, South Carolina, USA
"This book provides comprehensive materials needed for the readers to understand the concept of engineering 3D tissue test systems. It provides a good balance of basic sciences and engineering principles. It also includes a good amount of clinical relevant applications of such systems to provide practical value to its readers. Overall, this is a great introductory book for graduate students and researchers who want to explore more in the area of 3D tissue test systems and their applications."
—Tao Xu, Tsinghua University, Beijing, China
"…provides a clear presentation of design considerations from the ground up, and could be considered a short course in popular topics for 3D cell culture. The addition of a section relating to business considerations was novel and an excellent primer towards moving these needed technologies into broader adoption, where the impact of 3D cell culture can be realized."
—Scott Taylor, Poly-Med Inc., Anderson, South Carolina, USA
"… an excellent resource for undergraduate students and for those just entering the field. The inclusion of several chapters dedicated to the fundamentals of different aspects of biofabrication followed by chapters with examples illustrating these fundamentals is an approach that will help novices to better understand the principles. However, the book is also a good read for more established investigators as a reminder of where we have come and where we are going regarding cellseeded scaffolds and regenerative medicine."
Biomaterials Forum, Fourth Quarter 2017

Descriere

This book covers a rapidly evolving area in biomaterials engineering. It reveals the current and future research responses and diagnostic applications and provides a comprehensive overview to foster innovation. It offers insight into the importance of 3D systems and their use as benchtop models.