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In this new volume in the series Research and Perspectives in Neurosciences the authors have presented and discussed their findings in the fields of speech and language disorders, X-linked mental retardation, gene therapy in the CNS, memory and learning disorders and other fields.
The OMICs:Applications in Neuroscience summarizes the state of the art in OMICs applications in neurology and neuroscience, attracting neurologists who are interested in the progress of this field towards clinical applications, and neuroscientists who may be not familiar with the most recent advances in this ever-changing field. The book will include an overview of most relevant high-throughput approaches (collectively known as 'OMICs') and how they relate to neurology and neuroscience. The explosion of high-throughput assays has introduced large datasets, computational servers, and bioinformatics approaches to neuroscience and medicine in general. The reader will be provided with an overview of the application or method, a perspective on the current and future applications in neurology and neuroscience, and a few published examples illustrating possible practical use. Emerging topics such as ethical issues related to personal genome sequencing, epigenetics, network analysis, and role of peripheral biomarkers in disease diagnosis and follow-up will be covered as well.
Invertebrates have proven to be extremely useful model systems for gaining insights into the neural and molecular mechanisms of sensory processing, motor control and higher functions such as feeding behavior, learning and memory, navigation, and social behavior. A major factor in their enormous contributions to neuroscience is the relative simplicity of invertebrate nervous systems. In addition, some invertebrates, primarily the molluscs, have large cells, which allow analyses to take place at the level of individually identified neurons. Individual neurons can be surgically removed and assayed for expression of membrane channels, levels of second messengers, protein phosphorylation, and RNA and protein synthesis. Moreover, peptides and nucleotides can be injected into individual neurons. Other invertebrate model systems such as Drosophila and Caenorhabditis elegans offer tremendous advantages for obtaining insights into the neuronal bases of behavior through the application of genetic approaches. The Oxford Handbook of Invertebrate Neurobiology reviews the many neurobiological principles that have emerged from invertebrate analyses, such as motor pattern generation, mechanisms of synaptic transmission, and learning and memory. It also covers general features of the neurobiology of invertebrate circadian rhythms, development, and regeneration and reproduction. Some neurobiological phenomena are species-specific and diverse, especially in the domain of the neuronal control of locomotion and camouflage. Thus, separate chapters are provided on the control of swimming in annelids, crustaea and molluscs, locomotion in hexapods, and camouflage in cephalopods. Unique features of the handbook include chapters that review social behavior and intentionality in invertebrates. A chapter is devoted to summarizing past contributions of invertebrates to the understanding of nervous systems and identifying areas for future studies that will continue to advance that understanding.
Over the last twenty years there has been an explosive growth in our understanding of the molecular, cellular, and anatomical changes that occur in the days and weeks following brain injury. It is now clear that training and exposure to certain environments can modify and shape neuronal plasticity in lower animals and humans. In humans, in particular, there are new ways of charting neuronal plasticity at the ensemble or regional level using functional neuroimaging techniques such as positron emission tomography and functional magnetic resonance imaging. Thus, the time seems right for transporting the laboratory results to the clinic so that experimental findings can be tested in the "field". This volume provides some impetus to moving the field of cognitive neuroscience a little further in its efforts to improve the lives of patients who have suffered a debilitating brain injury.
This book builds a novel bridge from molecular research to clinical therapy. This approach reveals the functional features of neurons and glia in the particular context of vulnerability and self-protection, intracellular properties and extracellular matrix. Arising from this platform, this volume unfolds the molecular and systemic processes underlying migration disorders, axonal injury, repair and regeneration.
Written by a panel of experts, Methods in Alcohol-Related Neuroscience Research not only provides information of a technical nature but also gives an overview of the many areas in investigating the effects of alcohol on the brain. It gives technical guidance for investigators doing research at the molecular, cellular, systems, and behavioral levels. These techniques include a wide variety of approaches, ranging from gene mapping and examination of molecular interactions of alcohol at the sub-cellular level to recording of neural activities in freely-behaving animals and imaging alcohol effects on the living human brain.
What does neuroscience tell us about voluntary movement? Why is the definition of “volition” so different from that of the legal definition of “intent”? Why are courts dismissing medically accepted mental health diagnoses? How can we draft better laws that are more scientifically based? What can recent advances in neuroscience tell us about the way we apply the law? This volume provides groundbreaking insights into the areas of scientific evidence and the intersection of neuroscience and law, and is the product of a collaboration by two experts in their respective fields. It is a primer for all those interested in neurolaw.
"The brain sciences are influencing our understanding of human behavior as never before, from neuropsychiatry and neuroeconomics to neurotheology and neuroaesthetics. Many now believe that the brain is what makes us human, and it seems that neuroscientists are poised to become the new experts in the management of human conduct. Neuro describes the key developments--theoretical, technological, economic, and biopolitical--that have enabled the neurosciences to gain such traction outside the laboratory. It explores the ways neurobiological conceptions of personhood are influencing everything from child rearing to criminal justice, and are transforming the ways we "know ourselves" as human beings. In this emerging neuro-ontology, we are not "determined" by our neurobiology: on the contrary, it appears that we can and should seek to improve ourselves by understanding and acting on our brains. Neuro examines the implications of this emerging trend, weighing the promises against the perils, and evaluating some widely held concerns about a neurobiological "colonization" of the social and human sciences. Despite identifying many exaggerated claims and premature promises, Neuro argues that the openness provided by the new styles of thought taking shape in neuroscience, with its contemporary conceptions of the neuromolecular, plastic, and social brain, could make possible a new and productive engagement between the social and brain sciences."--Publisher's description.
This book introduces new and provocative neuroscience research that advances our understanding of intelligence and the brain. Compelling evidence shows that genetics plays a more important role than environment as intelligence develops from childhood, and that intelligence test scores correspond strongly to specific features of the brain assessed with neuroimaging. In understandable language, Richard J. Haier explains cutting-edge techniques based on genetics, DNA, and imaging of brain connectivity and function. He dispels common misconceptions, such as the belief that IQ tests are biased or meaningless, and debunks simple interventions alleged to increase intelligence. Readers will learn about the real possibility of dramatically enhancing intelligence based on neuroscience findings and the positive implications this could have for education and social policy. The text also explores potential controversies surrounding neuro-poverty, neuro-socioeconomic status, and the morality of enhancing intelligence for everyone. Online resources, including additional visuals, animations, questions and links, reinforce the material.
Translational neuroscience is at the heart of clinical advancement in the fields of psychiatry, neurology and neurodevelopmental disorders. Written and edited by leading scientists and clinicians, this is a comprehensive and authoritative analysis of this emerging strategy for developing more effective treatments for brain disorders. Introductory chapters bring together perspectives from both academia and industry, while subsequent sections focus on disease groups, including bipolar disorder and depression, attention deficit hyperactivity disorder, substance abuse, autism, Alzheimer's disease, pain, epilepsy, Parkinson's disease and multiple sclerosis. Each section includes topical introductory and summary chapters, providing an overview and synthesis of the field. Translational Neuroscience: Applications in Psychiatry, Neurology, and Neurodevelopmental Disorders is an important text for clinicians, scientists and students in academic settings, government agencies and industry, as well as those working in the fields of public health and the behavioural sciences.