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Showing 1 - 13 of 13 matches in All Departments
we might seek alternative sources of donor tissues. Genetic en- neering, expansion of precursor cells, generation of immortalized cell lines, and transplantation between species are all under active investigation. Although significant difficulties remain for each of these alternatives, the problems appear soluble and relevant knowledge is expanding rapidly. As we enter the twenty-first century, the place of neural tra- plantation in experimental neuroscience is continuing to evolve. Rather than being a topic in its own right, neural transplantation increasingly serves as just another technique in the researcher's armory--alongside lesions, pharmaceuticals, gene transfer, and a variety of other techniques--for the experimental manipulation of brain structure and function. This is particularly true for studies of degeneration, plasticity, regeneration, and recovery of function in the nervous system, topics of increasing importance as experimental neurobiology is required to serve the higher needs of neurological and mental health in aging societies. Within this evolving context, Neural Transplantation Methods seeks to serve a particular need: to provide experimental neu- scientists with a source book of information to enable them to select and adapt transplantation techniques to their own expe- mental programs. All authors have been asked to address prac- cal issues, to enable the reader to assess what is available, what are the alternatives, what are the practical issues to be resolved in applying a particular protocol and getting it to work reliably in their unique experimental context.
This detailed book provides a laboratory manual and guidebook for the selection, implementation, and interpretation of a wide range of techniques in contemporary use in leading laboratories engaged in Huntington's disease (HD) research worldwide. Only by understanding the pathology and pathogenic process at the fundamental molecular and cellular level can the research community expect to be able to slow or halt the disease process, repair the damage, and develop novel effective therapies to treat the symptoms of this condition, thus this volume collects the practical knowledge of its authors. 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 invaluable, Huntington's Disease aims to help scientists to significantly extend the breadth and quality of research in laboratories dedicated to mastering and controlling this devastating human condition.
Movement is the way that animals interact with their environment and is under the organization and complex control of the brain and spinal cord. Multiple central nervous systems, including cortex, basal ganglia, cerebellum, and brainstem, interact to provide precise motor control and integration. Damage or disease within these systems cause profound motor disturbances in man, which can be effectively modeled in animals to develop a better understanding and treatment of the human condition. Animal Models of Movement Disorders introduces a variety of methods and techniques used to model and assess motor function in experimental animals from lower orders, such as drosophila and c. elegans, through vertebrate species including fish, to mammals, such as rodents and non-human primates. The most advanced contemporary models in each system are presented at multiple levels of analysis from molecular and genetic modeling, lesions, anatomy, neurochemistry, to imaging and behavior. Volume II of this detailed collection contains sections on the basal ganglia, neo- and allo-cortical systems, cerebellar and brain stem systems, as well as spinal cord systems. Comprehensive and meticulous, Animal Models of Movement Disorders serves as a valuable reference for those studying motor disorders by covering methodologies in detail and providing the information necessary to consider both the appropriate models and assessment tools that can most informatively answer the key experimental issues in the field.
Movement is the way that animals interact with their environment and is under the organization and complex control of the brain and spinal cord. Multiple central nervous systems, including cortex, basal ganglia, cerebellum, and brainstem, interact to provide precise motor control and integration. Damage or disease within these systems cause profound motor disturbances in man, which can be effectively modeled in animals to develop a better understanding and treatment of the human condition. Animal Models of Movement Disorders introduces a variety of methods and techniques used to model and assess motor function in experimental animals from lower orders, such as drosophila and c. elegans, through vertebrate species including fish, to mammals, such as rodents and non-human primates. The most advanced contemporary models in each system are presented at multiple levels of analysis from molecular and genetic modeling, lesions, anatomy, neurochemistry, to imaging and behavior. Volume I contains general methods of movement disorder assessment as well as an extensive section on dopamine systems. Comprehensive and meticulous, Animal Models of Movement Disorders serves as a valuable reference for those studying motor disorders by covering methodologies in detail and providing the information necessary to consider both the appropriate models and assessment tools that can most informatively answer the key experimental issues in the field.
Movement is the way that animals interact with their environment and is under the organization and complex control of the brain and spinal cord. Multiple central nervous systems, including cortex, basal ganglia, cerebellum, and brainstem, interact to provide precise motor control and integration. Damage or disease within these systems cause profound motor disturbances in man, which can be effectively modeled in animals to develop a better understanding and treatment of the human condition. Animal Models of Movement Disorders introduces a variety of methods and techniques used to model and assess motor function in experimental animals from lower orders, such as drosophila and c. elegans, through vertebrate species including fish, to mammals, such as rodents and non-human primates. The most advanced contemporary models in each system are presented at multiple levels of analysis from molecular and genetic modeling, lesions, anatomy, neurochemistry, to imaging and behavior. Volume I contains general methods of movement disorder assessment as well as an extensive section on dopamine systems. Comprehensive and meticulous, Animal Models of Movement Disorders serves as a valuable reference for those studying motor disorders by covering methodologies in detail and providing the information necessary to consider both the appropriate models and assessment tools that can most informatively answer the key experimental issues in the field.
we might seek alternative sources of donor tissues. Genetic en- neering, expansion of precursor cells, generation of immortalized cell lines, and transplantation between species are all under active investigation. Although significant difficulties remain for each of these alternatives, the problems appear soluble and relevant knowledge is expanding rapidly. As we enter the twenty-first century, the place of neural tra- plantation in experimental neuroscience is continuing to evolve. Rather than being a topic in its own right, neural transplantation increasingly serves as just another technique in the researcher's armory--alongside lesions, pharmaceuticals, gene transfer, and a variety of other techniques--for the experimental manipulation of brain structure and function. This is particularly true for studies of degeneration, plasticity, regeneration, and recovery of function in the nervous system, topics of increasing importance as experimental neurobiology is required to serve the higher needs of neurological and mental health in aging societies. Within this evolving context, Neural Transplantation Methods seeks to serve a particular need: to provide experimental neu- scientists with a source book of information to enable them to select and adapt transplantation techniques to their own expe- mental programs. All authors have been asked to address prac- cal issues, to enable the reader to assess what is available, what are the alternatives, what are the practical issues to be resolved in applying a particular protocol and getting it to work reliably in their unique experimental context.
Functional Neural Transplantation IV: Translation to Clinical Application, Volume 230 provides the current status of cell transplantation in the nervous system, with a focus on the conditions for achieving structural repair and functional recovery after brain damage or in neurodegenerative disease. New to this release are chapters that delve into the Mechanisms and Use of Neural Transplants for Brain Repair, Reprogramming of Somatic Cells: iPS and iN Cells, Brain Repair from Intrinsic Cell Sources: Turning Reactive Glia into Neurons, and Ex Vivo Gene Therapy for the Treatment of Neurological Disorders, Preparation, Characterization and Banking of Clinical-grade Cells for Neural Transplantation. As the fourth in a periodic series of updates at 5-7 year intervals, this volume highlights recent developments related to the application of advances in cellular and molecular science, providing an understanding of the fundamental principles of neuroplasticity and regeneration in the brain and spinal cord, and also addressing the topic of the power of pluripotent stem cells to generate new sources of precisely specified neurons for utilization in brain repair.
This issue of "Progress in Brain Research" is split over 2 volumes,
bringing together cutting-edge research on functional neural
transplantation. The 2 volumes review current knowledge and
understanding, provide a starting point for researchers and
practitioners entering the field, and build a platform for further
research and discovery.
Movement is the way that animals interact with their environment and is under the organization and complex control of the brain and spinal cord. Multiple central nervous systems, including cortex, basal ganglia, cerebellum, and brainstem, interact to provide precise motor control and integration. Damage or disease within these systems cause profound motor disturbances in man, which can be effectively modeled in animals to develop a better understanding and treatment of the human condition. Animal Models of Movement Disorders introduces a variety of methods and techniques used to model and assess motor function in experimental animals from lower orders, such as drosophila and c. elegans, through vertebrate species including fish, to mammals, such as rodents and non-human primates. The most advanced contemporary models in each system are presented at multiple levels of analysis from molecular and genetic modeling, lesions, anatomy, neurochemistry, to imaging and behavior. Volume II of this detailed collection contains sections on the basal ganglia, neo- and allo-cortical systems, cerebellar and brain stem systems, as well as spinal cord systems. Comprehensive and meticulous, Animal Models of Movement Disorders serves as a valuable reference for those studying motor disorders by covering methodologies in detail and providing the information necessary to consider both the appropriate models and assessment tools that can most informatively answer the key experimental issues in the field.
Functional Neural Transplantation IV: Translation to Clinical Application, Part B, Volume 231 provides the current status of cell transplantation in the nervous system, focusing on the conditions for achieving structural repair and functional recovery. New to this edition are chapters on Plasticity and Regeneration in the Injured Spinal Cord After Cell Transplantation Therapy, Transplantation of GABAergic Interneurons for Cell-Based Therapy, Rebuilding CNS Inhibitory Circuits to Control Chronic Neuropathic Pain and Itch, From Transplanting Schwann Cells in Experimental Rat Spinal Cord Injury to their Transplantation into Human Injured Spinal Cord in Clinical Trials, and the Recruitment of Endogenous CNS Stem Cells for Regeneration in Demyelinating Disease. As the fourth in a periodic series of updates at 5-7 year intervals, this volume highlights recent developments in cellular and molecular science, providing the fundamental principles of neuroplasticity and regeneration in the brain and spinal cord, while also addressing the power of pluripotent stem cells to generate new sources of precisely specified neurons for utilization in brain repair.
This issue of Progress in Brain Research is split over 2 volumes,
bringing together cutting-edge research on Functional Neural
Transplantation. The 2 volumes review current knowledge and
understanding, provide a starting point for researchers and
practitioners entering the field, and build a platform for further
research and discovery.
Now available in paperback. Many neurological conditions are caused by damage to neurons and glial cells. For most of these diseases there are at present no effective treatments to minimise the extent of neuronal and glial loss, and no effective way of replacing what has been lost. This picture is rapidly changing. Developments in basic neuroscience have produced various potential therapies that can protect neurons and glia followiing traumatic, anoxic, infectious and immunological damage. The old doctrine that axons cannot be made to regenerate, and dead neurons cannot be replaced is no longer tenable, and a wide variety of reconstructive techniques for the nervous system are under development. These and other basic science discoveries will progress into clinical practice, and lead to a revolution in neurology and neurosurgery. This book describes the various conditions that lead to damage to the nervous system, and the ways in which they may be ameliorated. It covers the burgeoning science of reconstruction of the nervous system, through neuronal, glial and stem cell transplantation, axon regeneration, remyelination, plasticity and pharmacological interventions. The clinical conditions to which these treatments will be applied and their assessment are described. This is the first book to cover this enormous and expanding field of neuroscience and neurology. It will be useful to students and scientists working in the field of nervous system damage and reconstruction, and also to clinicians who wish to look forward to the developments which will shape the future of their practice.
This detailed book provides a laboratory manual and guidebook for the selection, implementation, and interpretation of a wide range of techniques in contemporary use in leading laboratories engaged in Huntington's disease (HD) research worldwide. Only by understanding the pathology and pathogenic process at the fundamental molecular and cellular level can the research community expect to be able to slow or halt the disease process, repair the damage, and develop novel effective therapies to treat the symptoms of this condition, thus this volume collects the practical knowledge of its authors. 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 invaluable, Huntington's Disease aims to help scientists to significantly extend the breadth and quality of research in laboratories dedicated to mastering and controlling this devastating human condition.
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