Tissue Engineering

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Clemens van Blitterswijk (KNAW (The Royal Netherlands Academy of Arts and Sciences), The Netherlands) Jan De Boer (Professor, Department of Biomedical Engineering, The Netherlands)

Tissue Engineering

Clemens van Blitterswijk (KNAW (The Royal Netherlands Academy of Arts and Sciences), The Netherlands), Jan De Boer (Professor, Department of Biomedical Engineering, The Netherlands)

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English

Academic Press Inc
16 November 2022

Life sciences: general issues; Engineering: general; Biochemical engineering; Biotechnology

Tissue Engineering, Third Edition provides a completely revised release with sections focusing on Fundamentals of Tissue Engineering and Tissue Engineering of Selected Organs and Tissues. Key chapters are updated with the latest discoveries, including coverage of new areas (skeletal TE, ophthalmology TE, immunomodulatory biomaterials and immune systems engineering). The book is written in a scientific language that is easily understood by undergraduate and graduate students in basic biological sciences, bioengineering and basic medical sciences, and researchers interested in learning about this fast-growing field.

Edited by: Clemens van Blitterswijk (KNAW (The Royal Netherlands Academy of Arts and Sciences) The Netherlands), Jan De Boer (Professor, Department of Biomedical Engineering, The Netherlands)
Imprint: Academic Press Inc
Country of Publication: United States
Edition: 3rd edition
Dimensions: Height: 276mm, Width: 216mm,
Weight: 1.770kg
ISBN: 9780128244593
ISBN 10: 0128244593
Pages: 798
Publication Date: 16 November 2022
Audience: College/higher education , Primary
Format: Hardback
Publisher's Status: Active

1. An introduction to tissue engineering; the topic and the book Jorge Alfredo Uquillas, Lorenzo Moroni and Jan de Boer 2. Stem cells Mark F. Pittenger and Candace L. Kerr 3. Tissue formation during embryogenesis Marcel Karperien, Bernard A.J. Roelen, Robert Passier and Susan Gibbs 4. Cellular signaling Vanessa LaPointe and Kristopher A. Kilian 5. Extracellular matrix as a bioscaffold for tissue engineering Brian M. Sicari, Ricardo Londono, Jenna L. Dziki and Stephen F. Badylak 6. Synthetic biomaterials Ana A. Aldana, Jurica Bauer and Matthew B. Baker 7. Degradation of biomaterials Clara Grace Hynes, Emily Morra, Pamela Walsh and Fraser Buchanan 8. Cellematerial interactions Hannah Donnelly, Steven Vermeulen, Monica Tsimbouri and Matthew J. Dalby 9. Biomaterials discovery: experimental and computational approaches Andrew L. Hook, Aurélie Carlier, Morgan R. Alexander and David A. Winkler 10. Microfabrication technology in tissue engineering Minghao Nie, Roman Truckenmüller and Shoji Takeuchi 11. Scaffold design and fabrication Dietmar W. Hutmacher, Biranche Tandon and Paul D. Dalton 12. Controlled release strategies in tissue engineering Jeffrey J. Rice, Mikaël M. Martino, Sharan Bobbala, Evan A. Scott and Jeffrey A. Hubbell 13. Bioreactors: enabling technologies for research and manufacturing Dominik Egger, Sabrina Nebel, Marius Gensler, Sebastian Kreb, Jan Hansmann and Cornelia Kasper 14. Strategies to promote vascularization, survival, and functionality of engineered tissues Miriam Filippi, Thomas Später, Marietta Herrmann, Matthias W. Laschke, Arnaud Scherberich and Sophie Verrier 15. Skin tissue engineering and keratinocyte stem cell therapy Rosalind Hannen, John Connelly, Simon Myers and Nkemcho Ojeh 16. Cartilage and bone regeneration Anders Lindahl, Mats Brittberg, David Gibbs, Jonathan I. Dawson, Janos Kanczler, Cameron Black, Rahul Tare and Richard OC. Oreffo 17. Tissue engineering of the nervous system Paul D. Dalton, Kelly L. O’Neill, Ana Paula Pêgo, Giles W. Plant, David R. Nisbet, Martin Oudega, Gary A. Brook and Alan R. Harvey 18. Principles of cardiovascular tissue engineering Saray Chen and Smadar Cohen 19. Tissue engineering of organ systems Adam M. Jorgensen and Anthony Atala 20. Product and process design: scalable and sustainable tissue-engineered product manufacturing Evan Claes, Tommy Heck, Maarten Sonnaert, Filip Donvil, Anaïs Schaschkow, Tim Desmet and Jan Schrooten 21. Clinical translation Johan Joly, Marina Marechal, Dieter Van Assche, Malcolm Moos, Jr. and Frank P. Luyten

Clemens van Blitterswijk graduated as cell biologist from Leiden University in 1982, defending his PhD thesis in 1985 at the same university. Today his research focuses on tissue engineering and regenerative medicine, forming a unique basis of multidisciplinary research between materials and life sciences. Van Blitterswijk has authored and co-authored more than 380 peer reviewed papers (H index 90, Scopus); is one of the most frequently cited Dutch scientists in TE; the applicant and co-applicant of over 100 patents; has guided 50 PhD candidates through their thesis as supervisor or co-supervisor and currently has 30 PhD candidates under his supervision. Dr. van Blitterswijk received a number of prestigious international awards including the George Winter award of the European society for Biomaterials, the Career Achievement Award of the Tissue Engineering and Regenerative Medicine International Society and is a member of the KNAW (The Royal Netherlands Academy of Arts and Sciences). Jan de Boer is an experienced University Professor and Chief Scientific Officer with a demonstrated history of working in academia and biotech. As a research professional he is skilled in Stem Cells, Biomaterial Engineering and Regenerative Medicine. Jan is interested in the molecular complexity of cells and how molecular circuits are involved in cell and tissue function. With a background in mouse and Drosophila genetics, he entered the field of biomedical engineering in 2002 and has since focused on understanding and implementing molecular biology in the field of tissue engineering and regenerative medicine. His research is characterized by a holistic approach to both discovery and application, aiming at combining high throughput technologies, computational modeling and experimental cell biology, to streamline the wealth of biological knowledge to real clinical applications.