James W. Fawcett Anne E. Rosser Stephen B. Dunnett
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 following traumatic, anoxic, infectious and immunological damage. The old doctrine that axons cannot be made to regenerate, and dead neurons cannot be replaced is no...
Now available in paperback. Many neurological conditions are caused by damage to neurons and glial cells. For most of these diseases there are at pres...
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...
we might seek alternative sources of donor tissues. Genetic en- neering, expansion of precursor cells, generation of immortalized cell lines, and tran...
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...
we might seek alternative sources of donor tissues. Genetic en- neering, expansion of precursor cells, generation of immortalized cell lines, and tran...
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...
Movement is the way that animals interact with their environment and is under the organization and complex control of the brain and spinal cord. Mu...
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...
Movement is the way that animals interact with their environment and is under the organization and complex control of the brain and spinal cord. Mu...
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...
Functional Neural Transplantation IV: Translation to Clinical Application, Volume 230 provides the current status of cell transplantation in...
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...
Functional Neural Transplantation IV: Translation to Clinical Application, Part B, Volume 231 provides the current status of cell transplant...
Sophie V. Precious Anne E. Rosser Stephen B. Dunnett
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.
This detailed book provides a laboratory manual and guidebook for the selection, implementation, and interpretation of a wide range of techniques in c...
