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Scientific Principles of Adipose Stem Cells

Rubin J. Peter
Heftet / 2021 / Engelsk

Produktdetaljer

ISBN
9780128193761
Publisert
2021-08-25
Utgiver
Vendor
Academic Press Inc
Vekt
450 gr
Høyde
235 mm
Bredde
191 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
484

Redaktør
Rubin J. Peter

Om bidragsyterne

Dr. Kokai is co-director of the Adipose Stem Cell Center at the University of Pittsburgh, faculty of the McGowan Institute of Regenerative Medicine (MIRM) and research faculty member in the Department of Plastic Surgery, School of Medicine. Dr. Kokai has a broad background in soft tissue engineering with specific training in development of novel biomaterials and drug delivery systems for adipose tissue regeneration and use of mesenchymal stem cells for tissue engineering and cell therapy applications. She has extensive experience in developing bioassays for biologic product development and has led collaborations with industry partners to transition preclinical research into commercialized products. Dr. Kokai is a co-Investigator in an NIH funded line of research aimed at developing cell-based methods for clinical soft tissue reconstruction after cancer therapy. Dr. Marra is an Associate Professor in the Department of Plastic Surgery (Primary), and Department of Bioengineering (Secondary), at the University of Pittsburgh. Dr. Marra’s academic training was in the areas of polymer chemistry, biomaterials and tissue engineering. She is the Director of the Plastic Surgery Research Laboratory (since 2002) and a core faculty member in the McGowan Institute for Regenerative Medicine, where she has served as a member of the Executive Committee since 2004. She has a publication record of 114 peer-reviewed publications, 24 reviews, 14 book chapters, and 4 patents, and over 570 abstracts in the areas of nerve regeneration, adipose stem cells, bioreactors, tissue engineering, and wound healing. Her funding includes NIH, NSF, and DoD grants in the area of regenerative medicine (including the Armed Forces Institute for Regenerative Medicine, (AFIRM)). She is the Enabling Technology Core Focus Area Leader in AFIRM II. She was Co-Chair of the 2015 Tissue Engineering and Regenerative Medicine International Society (TERMIS) World Congress, held in Boston. Dr. Rubin is endowed Professor of Plastic Surgery and Professor of Bioengineering, at the University of Pittsburgh with a faculty appointment with the McGowan Institute of Regenerative Medicine (MIRM). Dr. Rubin developed a basic science research program in the biology of adipose-derived stem cells and serves as Co-Director of the Adipose Stem Cell Center at the University of Pittsburgh. Dr. Rubin holds leadership positions in national and international plastic surgery societies, is the principal investigator in an NIH-funded line of research aimed at developing cell based methods for clinical soft tissue reconstruction after cancer therapy and holds two FDA cell therapy IDE protocols and an IND, all as sponsor/ investigator. Dr. Rubin’s many scientific leadership positions include past president of the International Society of Adipose Therapeutics and Science and past Chairman of the Plastic Surgery Research Council. He has received numerous awards for research, including the highly competitive Gingrass Award from the Plastic Surgery Research Council. He is the recipient of the American Association of Plastic Surgeons Academic Scholar Award, and the Plastic Surgery Educational Foundation Award for Outstanding Achievement in Basic and Translational Science. In 2007, Dr. Rubin was selected to receive a Presidential Early Career Award for Scientists and Engineers (PECASE). Dr. Rubin contributes expertise in scientific models assessing the use of adult adipose stem cell therapies for tissue engineering and regenerative applications

Scientific Principles of Adipose Stem Cells

Rubin J. Peter
Heftet / 2021 / Engelsk
Rubin J. Peter
Heftet / 2021 / Engelsk
Nettpris:
2.572,-
Levering 7-20 dager
Sjekk lagerstatus i butikk
Scientific Principles of Adipose Stem Cells provides readers with in-depth and expert knowledge on adipose stem cells, their developmental biologic origins, foundational research on ASC signaling mechanisms and immunomodulatory properties, and clinical insights into applications in regenerative medicine.  Topics covered include basic adipose stem cell developmental biology and mechanisms of regulating self-renewal and activation in the stem cell niche, important methods for isolation and characterizing ASCs, and data on the impact on human demographics (age, sex, BMI) on ASC phenotype. A section devoted to ASC biology, ASCs for stem cell therapy and regenerative medicine, and ASCs in tissue engineering applications are also included. The book is written for scientists and clinicians who are broadly familiar with stem cells and basic cell biology principles and those seeking advanced information on adipose stem cells.
Les mer
Part 1 Introduction and front matter 1. Plastic surgery, fat, and fat plasticity: How adipose tissue changed the landscape of stem cell therapeutics Lauren Kokai and J. Peter Rubin Part 2 Basic biology of adipose stem cells 2. Developmental origins of adipocytes: What we learn from human pluripotent stem cells Xi Yao, Vincent Dani, and Christian Dani 3. Establishing the adipose stem cell identity: Characterization assays and functional properties Mark A.A. Harrison, Sara I. Al-Ghadban, Benjamen T. O’Donnell, Omair A. Mohiuddin, Rachel M. Wise, Brianne N. Sullivan, and Bruce A. Bunnell 4. Insights into the adipose stem cell niche in health and disease Aaron C. Brown 5. Mechanisms of adipose-derived stem cell aging and the impact on therapeutic potential Xiaoyin Shan and Ivona Percec 6. Human pluripotent nontumorigenic multilineage differentiating stress enduring (Muse) cells isolated from adipose tissue: A new paradigm in regenerative medicine and cell therapy Karen L. Leung and Gregorio D. Chazenbalk 7. Adipose stem cell homing and routes of delivery Ganesh Swaminathan, Yang Qiao, Bhavesh D. Kevadiya, Lucille A. Bresette, Daniel D. Liu, and Avnesh S. Thakor 8. Bioreactors and microphysiological systems for adipose-based pharmacologic screening Mallory D. Griffin and Rosalyn D. Abbott Part 3  Adipose cell therapy and regenerative medicine 9. Adipose stem cells and donor demographics: Impact of anatomic location, donor sex, race, BMI, and health Adam Cottrill, Yasamin Samadi, and Kacey G. Marra 10. Immunomodulatory properties of adipose stem cells in vivo: Preclinical and clinical applications Matthias Waldner, Fuat Baris Bengur, and Lauren Kokai 11. Clinical experience with adipose tissue enriched with adipose stem cells Shawn Loder, Danielle Minteer, and J. Peter Rubin 12. Adipose-derived stem cells for wound healing and fibrosis Y Samadi, FM Egro, RL Rodriguez, and A Ejaz 13. Oncologic safety of adipose-derived stem cell application Hakan Orbay and David E. Sahar 14. FDA regulation of adipose cell use in clinical trials and clinical translation Mary Ann Chirba, Veronica Morgan Jones, Patsy Simon, and Adam J. Katz Part 4 Engineering with adipose stem cell 15. Biomaterial control of adipose-derived stem/stromal cell differentiation John Walker and Lauren Flynn 16. Genetic modification of adipose-derived stem cells for bone regeneration Harsh N. Shah, Abra H. Shen, Sandeep Adem, Ankit Salhotra, Michael T. Longaker, and Derrick C. Wan 17. Adipose-derived stromal/stem cells for bone tissue engineering applications Nathalie Faucheux, Fabien Kawecki, Jessica Jann, Franc¸ois A. Auger, Roberto D. Fanganiello, and Julie Fradette 18. The hematopoietic potential of stem cells from the adipose tissue Beatrice Cousin and Louis Casteilla 19. Adipose stem cells for peripheral nerve engineering Benjamin K. Schilling, George E. Panagis, Jocelyn S. Baker, and Kacey G. Marra
Les mer
A resource for scientists and clinicians who are broadly familiar with stem cells and basic cell biology principles
Coverage of basic adipose stem cell developmental biology (maturation process during embryogenesis) and mechanisms of regulating self-renewal and activation in the stem cell niche Includes important methods for isolation and characterizing ASCs, as well as known data any impact of human demographics (age, sex, BMI) on ASC phenotype An entire section dedicated to ASC biology, additional sections will be devoted to ASCs for stem cell therapy and regenerative medicine, as well as ASCs in tissue engineering applications
Les mer

Relaterte produkter

Scientific Principles of Adipose Stem Cells provides readers with in-depth and expert knowledge on adipose stem cells, their developmental biologic origins, foundational research on ASC signaling mechanisms and immunomodulatory properties, and clinical insights into applications in regenerative medicine.  Topics covered include basic adipose stem cell developmental biology and mechanisms of regulating self-renewal and activation in the stem cell niche, important methods for isolation and characterizing ASCs, and data on the impact on human demographics (age, sex, BMI) on ASC phenotype. A section devoted to ASC biology, ASCs for stem cell therapy and regenerative medicine, and ASCs in tissue engineering applications are also included. The book is written for scientists and clinicians who are broadly familiar with stem cells and basic cell biology principles and those seeking advanced information on adipose stem cells.
Les mer
Part 1 Introduction and front matter 1. Plastic surgery, fat, and fat plasticity: How adipose tissue changed the landscape of stem cell therapeutics Lauren Kokai and J. Peter Rubin Part 2 Basic biology of adipose stem cells 2. Developmental origins of adipocytes: What we learn from human pluripotent stem cells Xi Yao, Vincent Dani, and Christian Dani 3. Establishing the adipose stem cell identity: Characterization assays and functional properties Mark A.A. Harrison, Sara I. Al-Ghadban, Benjamen T. O’Donnell, Omair A. Mohiuddin, Rachel M. Wise, Brianne N. Sullivan, and Bruce A. Bunnell 4. Insights into the adipose stem cell niche in health and disease Aaron C. Brown 5. Mechanisms of adipose-derived stem cell aging and the impact on therapeutic potential Xiaoyin Shan and Ivona Percec 6. Human pluripotent nontumorigenic multilineage differentiating stress enduring (Muse) cells isolated from adipose tissue: A new paradigm in regenerative medicine and cell therapy Karen L. Leung and Gregorio D. Chazenbalk 7. Adipose stem cell homing and routes of delivery Ganesh Swaminathan, Yang Qiao, Bhavesh D. Kevadiya, Lucille A. Bresette, Daniel D. Liu, and Avnesh S. Thakor 8. Bioreactors and microphysiological systems for adipose-based pharmacologic screening Mallory D. Griffin and Rosalyn D. Abbott Part 3  Adipose cell therapy and regenerative medicine 9. Adipose stem cells and donor demographics: Impact of anatomic location, donor sex, race, BMI, and health Adam Cottrill, Yasamin Samadi, and Kacey G. Marra 10. Immunomodulatory properties of adipose stem cells in vivo: Preclinical and clinical applications Matthias Waldner, Fuat Baris Bengur, and Lauren Kokai 11. Clinical experience with adipose tissue enriched with adipose stem cells Shawn Loder, Danielle Minteer, and J. Peter Rubin 12. Adipose-derived stem cells for wound healing and fibrosis Y Samadi, FM Egro, RL Rodriguez, and A Ejaz 13. Oncologic safety of adipose-derived stem cell application Hakan Orbay and David E. Sahar 14. FDA regulation of adipose cell use in clinical trials and clinical translation Mary Ann Chirba, Veronica Morgan Jones, Patsy Simon, and Adam J. Katz Part 4 Engineering with adipose stem cell 15. Biomaterial control of adipose-derived stem/stromal cell differentiation John Walker and Lauren Flynn 16. Genetic modification of adipose-derived stem cells for bone regeneration Harsh N. Shah, Abra H. Shen, Sandeep Adem, Ankit Salhotra, Michael T. Longaker, and Derrick C. Wan 17. Adipose-derived stromal/stem cells for bone tissue engineering applications Nathalie Faucheux, Fabien Kawecki, Jessica Jann, Franc¸ois A. Auger, Roberto D. Fanganiello, and Julie Fradette 18. The hematopoietic potential of stem cells from the adipose tissue Beatrice Cousin and Louis Casteilla 19. Adipose stem cells for peripheral nerve engineering Benjamin K. Schilling, George E. Panagis, Jocelyn S. Baker, and Kacey G. Marra
Les mer
A resource for scientists and clinicians who are broadly familiar with stem cells and basic cell biology principles
Coverage of basic adipose stem cell developmental biology (maturation process during embryogenesis) and mechanisms of regulating self-renewal and activation in the stem cell niche Includes important methods for isolation and characterizing ASCs, as well as known data any impact of human demographics (age, sex, BMI) on ASC phenotype An entire section dedicated to ASC biology, additional sections will be devoted to ASCs for stem cell therapy and regenerative medicine, as well as ASCs in tissue engineering applications
Les mer

Produktdetaljer

ISBN
9780128193761
Publisert
2021-08-25
Utgiver
Vendor
Academic Press Inc
Vekt
450 gr
Høyde
235 mm
Bredde
191 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
484

Redaktør
Rubin J. Peter

Om bidragsyterne

Dr. Kokai is co-director of the Adipose Stem Cell Center at the University of Pittsburgh, faculty of the McGowan Institute of Regenerative Medicine (MIRM) and research faculty member in the Department of Plastic Surgery, School of Medicine. Dr. Kokai has a broad background in soft tissue engineering with specific training in development of novel biomaterials and drug delivery systems for adipose tissue regeneration and use of mesenchymal stem cells for tissue engineering and cell therapy applications. She has extensive experience in developing bioassays for biologic product development and has led collaborations with industry partners to transition preclinical research into commercialized products. Dr. Kokai is a co-Investigator in an NIH funded line of research aimed at developing cell-based methods for clinical soft tissue reconstruction after cancer therapy. Dr. Marra is an Associate Professor in the Department of Plastic Surgery (Primary), and Department of Bioengineering (Secondary), at the University of Pittsburgh. Dr. Marra’s academic training was in the areas of polymer chemistry, biomaterials and tissue engineering. She is the Director of the Plastic Surgery Research Laboratory (since 2002) and a core faculty member in the McGowan Institute for Regenerative Medicine, where she has served as a member of the Executive Committee since 2004. She has a publication record of 114 peer-reviewed publications, 24 reviews, 14 book chapters, and 4 patents, and over 570 abstracts in the areas of nerve regeneration, adipose stem cells, bioreactors, tissue engineering, and wound healing. Her funding includes NIH, NSF, and DoD grants in the area of regenerative medicine (including the Armed Forces Institute for Regenerative Medicine, (AFIRM)). She is the Enabling Technology Core Focus Area Leader in AFIRM II. She was Co-Chair of the 2015 Tissue Engineering and Regenerative Medicine International Society (TERMIS) World Congress, held in Boston. Dr. Rubin is endowed Professor of Plastic Surgery and Professor of Bioengineering, at the University of Pittsburgh with a faculty appointment with the McGowan Institute of Regenerative Medicine (MIRM). Dr. Rubin developed a basic science research program in the biology of adipose-derived stem cells and serves as Co-Director of the Adipose Stem Cell Center at the University of Pittsburgh. Dr. Rubin holds leadership positions in national and international plastic surgery societies, is the principal investigator in an NIH-funded line of research aimed at developing cell based methods for clinical soft tissue reconstruction after cancer therapy and holds two FDA cell therapy IDE protocols and an IND, all as sponsor/ investigator. Dr. Rubin’s many scientific leadership positions include past president of the International Society of Adipose Therapeutics and Science and past Chairman of the Plastic Surgery Research Council. He has received numerous awards for research, including the highly competitive Gingrass Award from the Plastic Surgery Research Council. He is the recipient of the American Association of Plastic Surgeons Academic Scholar Award, and the Plastic Surgery Educational Foundation Award for Outstanding Achievement in Basic and Translational Science. In 2007, Dr. Rubin was selected to receive a Presidential Early Career Award for Scientists and Engineers (PECASE). Dr. Rubin contributes expertise in scientific models assessing the use of adult adipose stem cell therapies for tissue engineering and regenerative applications

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