Akon Higuchi – författare
1 689 kr
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Stem Cell Laboratory Techniques: A Guide for Researchers and Students introduces the reader to stem cell culture, handling techniques and versatile applications used by researchers. Sections introduce stem cells, including definitions, types and basic use of stem cells in biomedical science research. The book explains laboratory procedures and techniques ranging from the extraction of stem cells from animals, cell seeding and culture, harvest and maintenance of stem cells, stem cell characterization, accurate recording, quality control, and more. In addition, it guides researchers on topics such as transcriptome analysis, proliferation study analysis, and microphysiological study.
Final sections cover useful and recent applications in stem cells, such as gene editing techniques and the preparation of stem cells for in vitro study, as well as stem cell lab design and equipment used in the lab. Lastly, human and animal research ethics are discussed.
Introduces readers to the stem cell culture and moves to handling techniques and versatile applications Includes coverage of gene editing techniques for stem cells and stem cells for in vitro study Presents stem cell lab design and equipment used in the lab2 319 kr
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3 079 kr
Skickas inom 5-8 vardagar
2 674 kr
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Human pluripotent stem cells (hPSCs), which cover both human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs), show promise for drug discovery and regenerative medicine applications. These stem cells cannot be cultured on conventional tissue culture dishes but on biomaterials that have specific interactions with the hPSCs. Differentiation is regulated by the biological and physical cues conferred by the biomaterial. This book provides a systematic treatment of these topics bridging the gap between fundamental biomaterials research of stem cells and their use in clinical trials.
The author looks at hPSC culture on a range of biomaterial substrates. Differentiation and control of hESCs and iPSCs into cardiomyocytes, osteoblasts, neural lineages and hepatocytes are covered. The author then considers their translation into stem cell therapies and looks at clinical trials across spinal cord injury, macular degeneration, bone disease and myocardial infarction. Finally, a chapter on future directions closes the book. By using this book, the reader will gain a robust overview of current research and a clearer understanding of the status of clinical trials for stem cell therapies.
2 580 kr
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Human pluripotent stem cells (hPSCs), which cover both human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs), show promise for drug discovery and regenerative medicine applications. These stem cells cannot be cultured on conventional tissue culture dishes but on biomaterials that have specific interactions with the hPSCs. Differentiation is regulated by the biological and physical cues conferred by the biomaterial. This book provides a systematic treatment of these topics bridging the gap between fundamental biomaterials research of stem cells and their use in clinical trials.
The author looks at hPSC culture on a range of biomaterial substrates. Differentiation and control of hESCs and iPSCs into cardiomyocytes, osteoblasts, neural lineages and hepatocytes are covered. The author then considers their translation into stem cell therapies and looks at clinical trials across spinal cord injury, macular degeneration, bone disease and myocardial infarction. Finally, a chapter on future directions closes the book. By using this book, the reader will gain a robust overview of current research and a clearer understanding of the status of clinical trials for stem cell therapies.