Full Product Details
Author: Kenneth Douglas (Department of Physics, Department of Physics, University of Colorado-Boulder)
Publisher: Oxford University Press Inc
Imprint: Oxford University Press Inc
Dimensions:
Width: 23.60cm
, Height: 2.30cm
, Length: 15.70cm
Weight: 0.680kg
ISBN: 9780190943547
ISBN 10: 0190943548
Pages: 320
Publication Date: 29 July 2021
Audience:
Professional and scholarly
,
Professional & Vocational
Format: Hardback
Publisher's Status: Active
Availability: To order
Stock availability from the supplier is unknown. We will order it for you and ship this item to you once it is received by us.
Reviews
Magic happens when we combine a 3D printer with tissue engineering and regenerative medicine. Add materials science, biotechnology, and medical technology, and the result is an explosion of innovation in 3D engineered tissues. Through a storytelling method, this fine book provides readers with insights into how bioprinting has changed tissue engineering and regenerative medicine and how it can change the way we approach human diseases in the future. * Dong-Woo Cho, Nam-Go Chair Professor, Department of Mechanical Engineering, Pohang University of Science and Technology (POSTECH), South Korea; Director, Center for Rapid Prototyping-Based 3D Tissue/Organ Printing * In this book, Ken Douglas tells how bioprinting first emerged at the turn of the 21st century, the enormous potential it offers for transforming the field of organ transplantation, and the real challenges that must be overcome in order for it to succeed and have an impact on the future of health care. It is a story of creativity, drive, perseverance, and passion, and it is told by recounting the personal stories of many of the key scientists who have led the chase. * From the Foreword by Donald E. Ingber, MD, Director, Wyss Institute for Biologically Inspired Engineering, Harvard University * The amount and breadth of basic research in bioprinting is astounding. It is a huge mix of approaches with cell biology, tissue engineering, and printing methods that start from scratch with basic cells and create living tissues. Douglas takes us through this maze step by step and makes historical and clinical sense of the direction and pace of this research. * Charles Chuck W. Hull, Inventor of Stereolithography (a.k.a. 3D Printing); Co-Founder, Executive Vice President, and Chief Technical Officer, 3D Systems * This book is superb! Ken Douglas has an amazing talent for weaving in and out of complicated topics and making them easy to understand. He writes in an engaging, conversational style, taking the reader inside the laboratory and introducing the personalities behind the science. Using down-to-earth examples and descriptive language, he makes complex scientific concepts come to life for the general public. He has done a magnificent job outlining what has been accomplished to date and the challenges that remain. Well done, Ken Douglas! * Anthony Atala, MD, G. Link Professor and Director, Wake Forest Institute for Regenerative Medicine *
The interviews with researchers about their struggles and victories immerse the readers in their stories, enriching their understanding of 3D bioprinting. * Dong-Woo Cho, Nam-Go Chair Professor in the Department of Mechanical Engineering at PoHang University of Science and Technology in South Korea and Director of the Center for Rapid Prototyping-Based 3D Tissue/Organ Printing * In this book, Ken Douglas tells how bioprinting first emerged at the turn of the 21st century, the enormous potential it offers for transforming the field of organ transplantation, and the real challenges that must be overcome in order for it to succeed and have an impact on the future of healthcare. It is a story of creativity, drive, perseverance, and passion, and it is told by recounting the personal stories of many of the key scientists who have led the chase. * Donald E. Ingber, Director of Wyss Institute for Biologically-Inspired Engineering, Harvard University * The amount of breadth of basic research in bioprinting is astounding. It is a huge mix of approaches with cell biology, tissue engineering, an printing methods that start from scratch with basic cells and create living tissues. Douglas takes us through his maze step by step and makes historical and clinical sense of the direction and pace of this research. * Charles ( Chuck ) W. Hull, inventor of stereolithography (3D printing) and co-founder, Executive Vice President, and Chief-Technical Officer of 3D Systems *
This book is superb! Ken Douglas has an amazing talent for weaving in and out of complicated topics and making them easy to understand. He writes in an engaging, conversational style, taking the reader inside the laboratory and introducing the personalities behind the science. Using down-to-earth examples and descriptive language, he makes complex scientific concepts come to life for the general public. He has done a magnificent job outlining what has been accomplished to date and the challenges that remain. Well done, Ken Douglas! * Anthony Atala, MD, G. Link Professor and Director, Wake Forest Institute for Regenerative Medicine * The amount and breadth of basic research in bioprinting is astounding. It is a huge mix of approaches with cell biology, tissue engineering, and printing methods that start from scratch with basic cells and create living tissues. Douglas takes us through this maze step by step and makes historical and clinical sense of the direction and pace of this research. * Charles Chuck W. Hull, Inventor of Stereolithography (a.k.a. 3D Printing); Co-Founder, Executive Vice President, and Chief Technical Officer, 3D Systems * In this book, Ken Douglas tells how bioprinting first emerged at the turn of the 21st century, the enormous potential it offers for transforming the field of organ transplantation, and the real challenges that must be overcome in order for it to succeed and have an impact on the future of health care. It is a story of creativity, drive, perseverance, and passion, and it is told by recounting the personal stories of many of the key scientists who have led the chase. * From the Foreword by Donald E. Ingber, MD, Director, Wyss Institute for Biologically Inspired Engineering, Harvard University * Magic happens when we combine a 3D printer with tissue engineering and regenerative medicine. Add materials science, biotechnology, and medical technology, and the result is an explosion of innovation in 3D engineered tissues. Through a storytelling method, this fine book provides readers with insights into how bioprinting has changed tissue engineering and regenerative medicine and how it can change the way we approach human diseases in the future. * Dong-Woo Cho, Nam-Go Chair Professor, Department of Mechanical Engineering, Pohang University of Science and Technology (POSTECH), South Korea; Director, Center for Rapid Prototyping-Based 3D Tissue/Organ Printing *
Author Information
Kenneth Douglas is a research faculty member in the Department of Physics at the University of Colorado Boulder. He earned a BA in mathematics and an MS in physics at the University of Chicago and a PhD in physics at the University of Colorado Boulder. Douglas' laboratory created the strategy of employing the surface layers of bacterial extremophiles as biomolecular masks to generate ordered nanostructured materials. His first book was DNA Nanoscience: From Prebiotic Origins to Emerging Nanotechnology (2017).
