Details
Human Neural Stem Cells
From Generation to Differentiation and ApplicationResults and Problems in Cell Differentiation, Band 66
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CHF 142.00 |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 12.09.2018 |
| ISBN/EAN: | 9783319934853 |
| Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<div><p>This book summarizes early pioneering achievements in the field of human neural stem cell (hNSC) research and combines them with the latest advances in stem cell technology, including reprogramming and gene editing. The powerful potential of hNSC to generate and repair the developing and adult CNS has been confirmed by numerous experimental in vitro and in vivo studies. The book presents methods for hNSC derivation and discusses the mechanisms underlying NSC in vitro fate decisions and their in vivo therapeutic mode of action.</p><p>The long-standing dogma that the human central nervous system (CNS) lacks the ability to regenerate was refuted at the end of the 20th century, when evidence of the presence of neurogenic zones in the adult human brain was found. These neurogenic zones are home to human neural stem cells (hNSCs), which are capable of self-renewing and differentiating into neurons, astrocytes and oligodendrocytes. NSCs isolated from human CNS have a number of clinical advantages, especially the innate potential to differentiate into functional neural cells. Nevertheless, their full clinical exploitation has been hindered by limited access to the tissue and low expansion potential. The search for an alternative to CNS sources of autologous, therapeutically competent hNSCs was the driving force for the many studies proving the in vitro plasticity of different somatic stem cells to generate NSCs and their functional progeny. Now the era of induced pluripotent stem cells has opened entirely new opportunities to achieve research and therapeutic goals with the aid of hNSCs.<br></p></div><div><br></div><p></p>
Part 1. Derivation and/or generation of human neural stem cells.- 1. Derivation of neural stem cells from the developing and adult human brain.- 2. Comparison of after-birth and adult somatic tissues in ability to generate human neural stem cells.- 3. Neural stem cells derived from human induced pluripotent stem cells and their use in models of CNS injury.- 4. Generation of human neural stem cells by direct phenotypic conversion.- Part 2. Differentiation and underlying mechanisms.- 5. Epigenetic regulation of human neural stem cell differentiation.- 6. Human iPSC-derived neuronal committed cells reveal common developmental genome deprograming in schizophrenia.- 7. Genome editing in human neural stem and progenitor cells.- 8. Brain Organoids – expanding our understanding of human development and disease.- 9. Microenvironmental cues in human neural stem cell fate commitment.- Part 3. Therapeutic potential of human neural stem cells.- 10. Updates on Human Neural Stem Cells: From Generation, Maintenance and Differentiation to Research and Translational Applications.- 11. Human neural stem cells for ischemic stroke treatment.- 12. Modeling pediatric and neuropsychiatric diseases using human iPSC.- 13. Neural stem cell dysfunction in human brain diseases.- 14. Human Fetal Neural Stem Cells for neurodegenerative disease treatment.
<div>This book summarizes early pioneering achievements in the field of human neural stem cell (hNSC) research and combines them with the latest advances in stem cell technology, including reprogramming and gene editing. The powerful potential of hNSC to generate and repair the developing and adult CNS has been confirmed by numerous experimental in vitro and in vivo studies. The book presents methods for hNSC derivation and discusses the mechanisms underlying NSC in vitro fate decisions and their in vivo therapeutic mode of action.</div><div><br></div><div>The long-standing dogma that the human central nervous system (CNS) lacks the ability to regenerate was refuted at the end of the 20th century, when evidence of the presence of neurogenic zones in the adult human brain was found. These neurogenic zones are home to human neural stem cells (hNSCs), which are capable of self-renewing and differentiating into neurons, astrocytes and oligodendrocytes. NSCs isolated from human CNS have a number of clinical advantages, especially the innate potential to differentiate into functional neural cells. Nevertheless, their full clinical exploitation has been hindered by limited access to the tissue and low expansion potential. The search for an alternative to CNS sources of autologous, therapeutically competent hNSCs was the driving force for the many studies proving the in vitro plasticity of different somatic stem cells to generate NSCs and their functional progeny. Now the era of induced pluripotent stem cells has opened entirely new opportunities to achieve research and therapeutic goals with the aid of hNSCs.</div><div><br></div>
Summarizes the most recent advances in human neural stem cells (hNSC) research Presents hNSC derivation methods Discusses mechanisms underlying NSC in vitro fate decisions and their in vivo therapeutic mode of action Outlines therapeutic potential of human neural stem cells
<div>Summarizes the most recent advances in human neural stem cells (hNSC) research</div><div><br></div><div>Presents hNSC derivation methods</div><div><br></div><div>Discusses mechanisms underlying NSC in vitro fate decisions and their in vivo therapeutic mode of action</div><div><br></div><div>Outlines therapeutic potential of human neural stem cells <br></div><div><br></div>
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