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The Cerebellum and Cognition pulls together a preeminent group of authors. The cerebellum has been previously considered as a highly complex structure involved only with motor control. The cerebellum is essential to nonmotor functions, and recent research has revealed new medically important roles of the cerebellum and cognitive processes. - Selected for inclusion in Doody's Core Titles 2013, an essential collection development tool for health sciences libraries - Comprehensive coverage of cerebellum in motor control and cognition - New developments regarding the cerebellum and motor systems - Therapeutic implications of cerebellar contributions to cognition - Preeminent group of contributors
The Linguistic Cerebellum provides a comprehensive analysis of this unique part of the brain that has the most number of neurons, each operating in distinct networks to perform diverse functions. This book outlines how those distinct networks operate in relation to non-motor language skills. Coverage includes cerebellar anatomy and function in relation to speech perception, speech planning, verbal fluency, grammar processing, and reading and writing, along with a discussion of language disorders. - Discusses the neurobiology of cerebellar language functions, encompassing both normal language function and language disorders - Includes speech perception, processing, and planning - Contains cerebellar function in reading and writing - Explores how language networks give insight to function elsewhere in the brain
A unique overview of research on dyslexia and an account of the underlying causes at cognitive, brain, and neural system levels that provides a framework for significant progress in the understanding of dyslexia and other related learning disabilities. Dyslexia research has made dramatic progress since the mid-1980s. Once discounted as a “middle-class myth,” dyslexia is now the subject of a complex—and confusing—body of theoretical and empirical research. In Dyslexia, Learning, and the Brain, leading dyslexia researchers Roderick Nicolson and Angela Fawcett provide a uniquely broad and coherent analysis of dyslexia theory. Unlike most dyslexia research, which addresses the question “what is the cause of the reading disability called dyslexia?” the authors' work has addressed the deeper question of “what is the cause of the learning disability that manifests as reading problems?” This perspective allows them to place dyslexia research within the much broader disciplines of cognitive psychology and cognitive neuroscience and has led to a rich framework, including two established leading theories, the automatization deficit account (1990) and the cerebellar deficit hypothesis (2001). Nicolson and Fawcett show that extensive evidence has accumulated to support these two theories and that they may be seen as subsuming the established phonological deficit account and sensory processing accounts. Moving to the explanatory level of neural systems, they argue that all these disorders reflect problems in some component of the procedural learning system, a multiregion system including major components of cortical and subcortical regions. The authors' answer to the fundamental question “what is dyslexia?” offers a challenge and motivation for research throughout the learning disabilities, laying the foundations for future progress.
One remarkable ability of the human brain is to process large amounts of information about our surroundings to allow us to interact effectively with them. In everyday life, the most common way to interact with objects is by reaching, grasping, lifting and manipulating them. Although these may sound like simple tasks, the perceptual properties of the target object, such as its location, size, shape, and orientation all need to be processed in order to set the movement parameters that allow an accurate reach-to-grasp-to lift movement. Several brain areas work in concert to process this outstanding amount of visual information and drive the execution of a motor plan in just a few hundred milliseconds. How are these processes orchestrated? In developing this type of comprehensive knowledge about the interactions between objects perception and goal-directed actions, we have a window into the mechanisms underlying the functioning of the visuo-motor system. With this research topic we aim to further understand the neural mechanisms that mediate our interactions with the world. Therefore, we particularly encourage submission of papers that attempt to relate such findings to real-world situations by investigating behavioural and neural correlates of information processing related to eye-hand coordination and visually-guided actions, including reaching, grasping, and lifting movements. This topic welcomes submissions of original research using any relevant techniques and methods, from behavioural kinematics/kinetics, to neuroimaging and transcranial magnetic stimulation (TMS), as well as neuropsychological studies.
Creating Coordination in the Cerebellum provides a multidisciplinary collection of chapters on the cerebellum with topics covering the entire spectrum from development and molecular neurobiology, cell physiology and plasticity to motor control, system physiology, functional imaging and pathology. The book not only presents novel discoveries obtained with recently developed technologies, but also gives new general concepts in global issues of cerebellar development and functions. By doing so it sets the standard for cerebellar research of the 21st century.* Provides a complete overview of current cerebellar research* Includes color illustrations* Contains contributions from renowned cerebellar scientists