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New Research on Neurofilament Proteins
Neurofilaments serve as a necessity in brain sensory communications. They are important structural and cellular transportation proteins found in both afferent and efferent auditory neurons. The peripheral processes of auditory neurons innervate sensory hair cells within the cochlea and a loss of these hair cells, by disease or damage, is a major cause of deafness. The decline of Neurofilaments can also lead to the cause of multiple sclerosis due to their neurological involvement. This new book brings fascinating research in this field.
Cytoskeleton of the Nervous System
This monograph begins with a general description of the cytoskeleton in axonal development and pathology and then moves to more detailed descriptions of particular components, including microtubules and associated proteins, neurofilaments and interacting proteins, actin and its binding proteins, and glial fibrillary acidic protein. The later chapters focus on the functional significance of the neuronal cytoskeleton in axonal transport and its regulation in health and disease states. The Cytoskeleton of the Nervous System will encourage further development of unifying principles and stimulate new conceptual and technical approaches toward a better understanding of cytoskeleton functions in health and disease.
Progress in Nanomedicine in Neurologic Diseases
This book covers the use of nanomedicine in the delivery of neuroprotective agents, including pharmacological drugs, stem cells, neurotrophic factors, monoclonal antibodies and enzymes to induce greater beneficial effects in neurologic diseases. Thus, the main purpose of the book is to explore the delivery of drugs either alone or in combination with stem cells to enhance neuroprotection in neurological diseases. Brain pathology associated with acute trauma such as head injury and brain blast injury can also be managed using novel treatment strategies. In addition, emphasis is made that standard patterns of brain pathology may be complicated with multiple comorbidity factors where one agent ...
Molecular Mechanisms of Neurotransmitter Release
Neurons communicate with each other by releasing neurotransmitters. This book provides comprehensive coverage of the molecular mechanisms involved in neurotransmitter release. The topics covered in the book range from the architecture and cytomatrix proteins of presynaptic sites, to the modes of synaptic vesicle exocytosis (full-collapse and kiss-and-run), and from the key molecules mediating synaptic vesicle fusion (SNAREs) to those that closely interact with them (UNC-13/Munc13, UNC-18/Munc18, tomosyn, and complexins). The book also delves into the calcium sensors of synaptic vesicle fusion (synaptotagmins and Doc2s), the sources of calcium that trigger synaptic exocytosis (voltage-gated c...
Patterns of Parental Behavior
Modern neuroscience has presented new opportunities for exploring the molecular and neural mechanisms controlling specific social responses. This book reviews insights into the neural circuits underlying a particularly fascinating form of social interaction, parental behavior. This book presents a detailed review of maternal and paternal behavior of particular mammalian species. It offer neuroscientists a spectrum of specific mammals that can be used as experimental models to explore particular topics on the functions of the nervous system. It shows that results coming from the laboratory can be translated into useful information for raising mammals on the farm, and it stimulates biologists to gain insights into the underpinnings of the complex mechanisms governing mammalian behavior in the wild. It also discusses the implications of this research for human parental behavior.
Dendritic Spines
This reference provides detailed coverage of dendritic spines, the fascinating neuronal components that modulate synaptic transmission, development, strength, and plasticity and are involved in the function of multiple areas of the nervous system. The density, shape, and function of spines may indicate the cellular connectivity and synaptic plasticity in normal and pathological conditions. This field has undergone dramatic advances in terms of techniques and experimental findings from in vitro to in vivo data, from animal models to human neurons, and computational models using artificial intelligence. To address these cutting-edge findings, the book provides state-of-the-art, comprehensive coverage with chapters written by the leading international researchers in the field. The authors consider the multiple implications for the study of dendritic spines with broad implications in the neurosciences and related areas.
Basic and Translational Applications of the Network Theory for Dystonia
A recently proposed novel scheme of dystonia suggests that it is a disorder of neural network. Impairment in any of the “nodes” of the network may result in deficient network activity, causing dystonia. This book aims to present various experimental evidence supporting the network theory of dystonia. Dystonia is the abnormal twisting and turning of the organ and associated involuntary oscillations. Although dystonia is less common than Parkinson’s disease, traumatic brain injury, or stroke, each of these common disorders present with dystonia. Information regarding the brain regions that may be involved in dystonia is surprisingly limited and often conflicting. With chapters written by subject matter experts, this is a unique title that focuses on dystonia as a network disorder. This book would be of interest to basic and clinical researchers with an interest in motor systems and movement disorders.
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