This reference work presents the origins of cells for tissue engineering and regeneration, including primary cells, tissue-specific stem cells, pluripotent stem cells and trans-differentiated or reprogrammed cells. There is particular emphasis on current understanding of tissue regeneration based on embryology and evolution studies, including mechanisms of amphibian regeneration. The book covers the use of autologous versus allogeneic cell sources, as well as various procedures used for cell isolation and cell pre-conditioning , such as cell sorting, biochemical and biophysical…mehr
This reference work presents the origins of cells for tissue engineering and regeneration, including primary cells, tissue-specific stem cells, pluripotent stem cells and trans-differentiated or reprogrammed cells. There is particular emphasis on current understanding of tissue regeneration based on embryology and evolution studies, including mechanisms of amphibian regeneration. The book covers the use of autologous versus allogeneic cell sources, as well as various procedures used for cell isolation and cell pre-conditioning , such as cell sorting, biochemical and biophysical pre-conditioning, transfection and aggregation. It also presents cell modulation using growth factors, molecular factors, epigenetic approaches, changes in biophysical environment, cellular co-culture and other elements of the cellular microenvironment. The pathways of cell delivery are discussed with respect to specific clinical situations, including delivery of ex vivo manipulated cells via local and systemic routes, as well as activation and migration of endogenous reservoirs of reparative cells. The volume concludes with an in-depth discussion of the tracking of cells in vivo and their various regenerative activities inside the body, including differentiation, new tissue formation and actions on other cells by direct cell-to-cell communication and by secretion of biomolecules.
Dr. Gimble is Co-founder and Chief Scientific Officer of LaCell LLC and Obatala Sciences Inc. For over 30 years, Dr. Gimble's laboratory has focused on stromal/stem cells isolated from bone marrow and adipose tissue as a model system for differentiation, hematopoiesis, metabolism, and regenerative medicine. Over this period, he has held faculty appointments (full time or adjunct) at the Oklahoma Medical Research Foundation, University of Oklahoma Health Sciences Center, Baylor College of Medicine, University of North Carolina Chapel Hill, Duke University Medical Center, Louisiana State University Health Sciences Center New Orleans, and Tulane University Center for Stem Cell Research and Regenerative Medicine. In addition, Dr. Gimble spent 4 years in the Research Triangle Park, NC, at Zen-Bio, Inc., a biotechnology company supplying human primary adipose-derived cells to the research community (1999-2000), and at Artecel Sciences, a tissue engineering company that he co-founded and helped lead as Chief Scientific Officer (2000-2003). Dr. Darja Marolt Presen completed her doctoral studies at the University of Ljubljana, Slovenia, and was a visiting Ph.D. student at the Massachusetts Institute of Technology, Boston, USA. She trained as a postdoctoral scientist at Columbia University, New York, USA, and was leading the bone regeneration group at the New York Stem Cell Foundation Research Institute, New York, USA. She is currently the principal investigator of the bone bioengineering and regeneration group at the Ludwig Boltzmann Institute for Experimental and Clinical Traumatology in Vienna, Austria. Her research in bone tissue engineering and regeneration was supported by fellowships and grants from the Republic of Slovenia, New York Stem Cell Foundation, FFG Austria, and European Commission (Horizon 2020). Richard O. C. Oreffo is Professor of Musculoskeletal Science and Co-founder/Director of the Centre for Human Development, Stem Cells and Regeneration at the University of Southampton. He leads a multidisciplinary research group focused on developing strategies to repair bone and cartilage, with translation a key personal driver. To achieve these goals, he has brought together and developed teams of clinicians/life scientists over the last 20 years and trained 47 M.D./Ph.D. students to completion, to date. He has published more than 300 peer-reviewed paper including breakthrough publications on skeletal stem cells and nanotopography, bone regeneration, as well as epigenetics and holds 6 patents. Richard is Founder, Director, and CSO of Renovos Biologics Limited, a Fellow of the Institute of Biology, and in 2015 was awarded a Doctor of Science degree by the University of Oxford and elected a Fellow of International Orthopaedic Research (FIOR) in 2019. Susanne Wolbank is Head of the Stem Cell Biology Lab and, since 2019, Deputy Director at the Ludwig Boltzmann for experimental and clinical traumatology, Vienna, Austria. She is a biotechnologist (University of Natural Resources and Applied Life Sciences, Vienna) and held a postdoc position at the Clinical Research Center, Karolinska Institutet, Stockholm, on in vitro and in vivo characterization of human embryonic stem cells. She now combines her technological background with her basics knowledge on stem cells to investigate cellular aspects of tissue engineering and regenerative medicine. Her main research interest lies in stem cells from human "waste materials" such as perinatal tissues or adipose tissue. Her work has focused on optimizing these therapeutically relevant cells from isolation to improving the mode of application by activation via shockwave, cell-free application, combination with suitable biomaterials, and characterizing these cells including their interaction with other regenerative cell types. She is the current General Secretary of the International Placenta Stem Cell Society (IPLASS). Heinz Redl Ludwig Boltzmann Institute for Clinical and Experimental Traumatology. >40 years), developing surgical devices in current clinical use, and several collaboration projects with major industry partners.
Inhaltsangabe
From the Contents: Sources.- Primary cells.- Chondrocytes.- Muscle cells.- ß-cells.- Schwann cells.- Cell lines for test systems.- Immortalized primary cells.- STEM.- Bone marrow derived.- Placenta derived cells.- Amnion.- in toto.- Placenta / Chorion.- Cord/Wharton cells.- Amniotic fluid cells.