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This detailed book brings together a number of state-of-the-art protocols to generate different types of neural cells through the use of reprogramming technologies. Additionally, the volume explores different aspects of functional evaluation and applications of reprogrammed neural cells as well as in silico methods to aid reprogramming efforts. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Neural Reprogramming: Methods and Protocols provides ample experimental experience and guidance for anyone, be it experienced researcher or beginner, to generate, validate, and apply reprogrammed neural cells in their research.
Increasing numbers of parents grapple with children who are acting out without obvious reason. Revved up and irritable, many of these children are diagnosed with ADHD, bipolar illness, autism, or other disorders but don’t respond well to treatment. They are then medicated, often with poor results and unwanted side effects. Based on emerging scientific research and extensive clinical experience, integrative child psychiatrist Dr. Victoria Dunckley has pioneered a four-week program to treat the frequent underlying cause, Electronic Screen Syndrome (ESS). Dr. Dunckley has found that everyday use of interactive screen devices — such as computers, video games, smartphones, and tablets — can easily overstimulate a child’s nervous system, triggering a variety of stubborn symptoms. In contrast, she’s discovered that a strict, extended electronic fast single-handedly improves mood, focus, sleep, and behavior, regardless of the child’s diagnosis. It also reduces the need for medication and renders other treatments more effective. Offered now in this book, this simple intervention can produce a life-changing shift in brain function and help your child get back on track — all without cost or medication. While no one in today’s connected world can completely shun electronic stimuli, Dr. Dunckley provides hope for parents who feel that their child has been misdiagnosed or inappropriately medicated, by presenting an alternative explanation for their child’s difficulties and a concrete plan for treating them.
The brain is plastic and it can change its function to adapt to changing demands of various kinds. The brain can also re-organize and change its function to better utilize its resources when parts of the brain have been damaged through injuries and diseases. This means that the brain is not "hard wired but can be reprogrammed when needed. This book describes different aspects of how the plasticity can become activated and how it can benefit the individual person. This book provides in-depth coverage of many important aspects of neural plasticity and how it applies to trauma, including strokes and disorders of the central nervous system that affect memory and cognition. The book also discusses how neural plasticity is involved in aphasia, pain and tinnitus. The roles of neural plasticity in motor rehabilitation and in adaptation to prostheses such as cochlear and cochlear nucleus implants are also topics of the book.* Provides in-depth coverage of many important aspects of neural plasticity and how it applies to trauma, including strokes and disorders of the central nervous system that affect memory and cognition* Discusses how neural plasticity is involved in aphasia, pain and tinnitus* Explains the roles of neural plasticity in motor rehabilitation and prosthesis such as cochlear and cochlear nucleus implants
Essential reference guide for clinicians working with DBS patients, fully revised throughout with new chapters on epilepsy and psychiatric disorders.
The neural crest is a remarkable embryonic population of cells found only in vertebrates and has the potential to give rise to many different cell types contributing throughout the body. These derivatives range from the mesenchymal bone and cartilage comprising the facial skeleton, to neuronal derivatives of the peripheral sensory and autonomic nervous systems, to melanocytes throughout the body, and to smooth muscle of the great arteries of the heart. For these cells to correctly progress from an unspecifi ed, nonmigratory population to a wide array of dynamic, differentiated cell types-some of which retain stem cell characteristics presumably to replenish these derivatives-requires a complex network of molecular switches to control the gene programs giving these cells their defi ning structural, enzymatic, migratory, and signaling capacities. This review will bring together current knowledge of neural crest-specifi c transcription factors governing these progressions throughout the course of development. A more thorough understanding of the mechanisms of transcriptional control in differentiation will aid in strategies designed to push undifferentiated cells toward a particular lineage, and unraveling these processes will help toward reprogramming cells from a differentiated to a more naive state. Table of Contents: Introduction / AP Genes / bHLH Genes / ETS Genes / Fox Genes / Homeobox Genes / Hox Genes / Lim Genes / Pax Genes / POU Domain Genes / RAR/RXR Genes / Smad Genes / Sox Genes / Zinc Finger Genes / Other Miscellaneous Genes / References / Author Biographies
One of the nation's leading neuroscientists presents a radically new view of the function of the brain and the nervous system. Its central idea is that the nervous system in each individual operates as a selective system resembling natural selection in evolution, but operating by different mechanisms. This far-ranging theory of brain functions is bound to stimulate renewed discussion of such philosophical issues as the mind-body problem, the origins of knowledge and the perceptual bases of language. Notes and Index.
Originally published by Viking Penguin, 2014.
Engineering Neural Tissue from Stem Cells covers the basic knowledge needed to understand the nervous system and how existing cells can be used to create neural tissue. This book presents a broad range of topics related to the design requirements for engineering neural tissue from stem cells. It begins with the anatomy and function of the central and peripheral nervous system, also covering stem cells, their relation to the nervous system and their function in recovery after injury or disease. In addition, the book explores the role of the extracellular matrix and vasculature/immune system and biomaterials, including their suitability for neural tissue engineering applications. - Provides readers entering the field with a strong basis of neural tissue engineering processes and real-world applications - Discusses the most current clinical trials and their importance of treating nervous system disorders - Reviews the structure and immune response of the nervous system, including the brain, spinal cord and their present cells - Offers a necessary overview of the natural and synthetic biomaterials used to engineer neural tissue
This 1999 edition of The Neural Crest contains comprehensive information about the neural crest, a structure unique to the vertebrate embryo, which has only a transient existence in early embryonic life. The ontogeny of the neural crest embodies the most important issues in developmental biology, as the neural crest is considered to have played a crucial role in evolution of the vertebrate phylum. Data that analyse neural crest ontogeny in murine and zebrafish embryos have been included in this revision. This revised edition also takes advantage of recent advances in our understanding of markers of neural crest cell subpopulations, and a full chapter is now devoted to cell lineage analysis. The major research breakthrough since the first edition has been the introduction of molecular biology to neural crest research, enabling an elucidation of many molecular mechanisms of neural crest development. This book is essential reading for students and researchers in developmental biology, cell biology, and neuroscience.