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Neuroimaging has had an enormous impact on the way human cognition is studied in vivo. With the advent of fMRI, scientists have been able to ask questions regarding individual differences which could not have been addressed with PET. These are particularly important for studying developmental disorders, such as dyslexia, because research suggests that participants with dyslexia (DPs) form a heterogeneous population. This book discusses neural correlation between reading deficits in individuals with developmental dyslexia. It also includes topics on electrical imaging in neuropsychiatry; prenatal magnetic resonance imaging of the brain and spine; and normal pressure hydrocephalus.
Consciousness is one of the most significant scientific problems today. Renewed interest in the nature of consciousness - a phenomenon long considered not to be scientifically explorable, as well as increasingly widespread availability of multimodal functional brain imaging techniques (EEG, ERP, MEG, fMRI and PET), now offer the possibility of detailed, integrated exploration of the neural, behavioral, and computational correlates of consciousness. The present volume aims to confront the latest theoretical insights in the scientific study of human consciousness with the most recent behavioral, neuroimaging, electrophysiological, pharmacological and neuropathological data on brain function in altered states of consciousness such as: brain death, coma, vegetative state, minimally conscious state, locked-in syndrome, dementia, epilepsy, schizophrenia, hysteria, general anesthesia, sleep, hypnosis, and hallucinations. The interest of this is threefold. First, patients with altered states of consciousness continue to represent a major clinical problem in terms of clinical assessment of consciousness and daily management. Second, the exploration of brain function in altered states of consciousness represents a unique lesional approach to the scientific study of consciousness and adds to the worldwide effort to identify the "neural correlate of consciousness". Third, new scientific insights in this field have major ethical and social implications regarding our care for these patients.
The past decade has witnessed tremendous progress in psychiatric neuroimaging research. Investigators have developed, in tandem with significant advances in imaging technology, innovative strategies for exploiting the awesome potential of these new tools. This volume brings you up to date on the latest developments by providing insight into the methodology of experimental design of the numerous neuroimaging articles being published in today's peer-reviewed journals. Revealing the remarkable wealth of neuroimaging's potential contributions to psychiatry, 49 distinguished contributors use accounts of their own research to illustrate the power of particular paradigmatic techniques. These techniques hold promise not only for delineating pathophysiology and advancing neuroscience, but also for yielding discoveries of direct clinical significance, such as diagnostic testing, predictors of treatment response, and new medications. Focused specifically on applications in psychiatry, these chapters are uniquely organized around experimental paradigms rather than psychiatric disorders: Using magnetic resonance imaging (MRI) to detect and characterize subtle, easily overlooked abnormalities in schizophrenia and schizotypal personality disorder. Testing specific hypotheses regarding the functional integrity of implicated neural systems within the brain as part of cognitive activation studies of schizophrenia and obsessive-compulsive disorder (OCD). Assessing the roles of the amygdala and striatum in anxiety disorders, including masked stimuli and other task manipulation methods to assay nonconscious brain activity. Investigating the neural correlates of psychiatric symptoms in anxiety disorders, using script-driven imagery and in vivo exposure to experimentally manipulate study conditions. Capturing the often elusive symptoms of hallucinations and psychomotor tics using innovative imaging techniques. Using transcranial magnetic stimulation (TMS) to investigate how the brain regulates mood. Other fascinating topics include using positron emission tomography (PET) and single photon emission computed tomography (SPECT) to discern the therapeutic mechanisms of psychotropic medications and enhance the development of new medications; integrating structural and functional imaging to treat major depression; using magnetic resonance spectroscopy (MRS) to quantify brain concentrations of exogenous compounds; using MRI to visualize circuits implicated in developmental disorders such as attention-deficit/hyperactivity disorder (ADHD) and anxiety, including ground-breaking studies of children; using functional MRI in animals and its applications in psychiatric research; and exploring the use of neuroimaging methods to investigate genetic contributions to normal cognitive function. Specialists and general clinicians alike will find much of interest in this definitive look at the exciting developments in neuroimaging today and how they can enhance our understanding and treatment of psychiatric disorders. This comprehensive text with its extensive illustrations and annotations will also prove a welcome addition to any course in the neurosciences.
This book provides a concise overview of emerging technologies in the field of modern neuroimaging. Fundamental principles of the main imaging modalities are described as well as advanced imaging techniqes including diffusion weighted imaging, perfusion imaging, arterial spin labeling, diffusion tensor imaging, intravoxel incoherent motion, MR spectroscopy, functional MRI, and artificial intelligence. The physical concepts underlying each imaging technique are carefully and clearly explained in a way suited to a medical audience without prior technical knowledge. In addition, the clinical applications of the various techniques are described with the aid of illustrative clinical examples. Helpful background information is also presented on the core principles of MRI and the evolution of neuroimaging, and important references to current medical research are highlighted. The book will meet the needs of a range of non-technological professionals with an interest in advanced neuroimaging, including radiology researchers and clinicians in the fields of neurology, neurosurgery, and psychiatry.
Neuroimaging has had an enormous impact on the way human cognition is studied in vivo. With the advent of fMRI, scientists have been able to ask questions regarding individual differences which could not have been addressed with PET. These are particularly important for studying developmental disorders, such as dyslexia, because research suggests that participants with dyslexia (DPs) form a heterogeneous population. This book discusses neural correlation between reading deficits in individuals with developmental dyslexia. It also includes topics on electrical imaging in neuropsychiatry; prenatal magnetic resonance imaging of the brain and spine; and normal pressure hydrocephalus.
Notable experts in the field of neuroimaging provide comprehensive overviews of advances in functional and structural aspects of both common and uncommon brain disorders. Functional imaging is evolving quickly but researchers and clinicians do not always have a strong understanding of the fundamental basis of the imaging techniques that they use. By focusing on both structure and function this book will provide a strong foundation for emerging developments in the field.
Traumatic brain injury (TBI) remains a significant source of death and permanent disability, contributing to nearly one-third of all injury related deaths in the United States and exacting a profound personal and economic toll. Despite the increased resources that have recently been brought to bear to improve our understanding of TBI, the developme
By 2030 there will be about 70 million people in the United States who are older than 64. Approximately 26 percent of these will be racial and ethnic minorities. Overall, the older population will be more diverse and better educated than their earlier cohorts. The range of late-life outcomes is very dramatic with old age being a significantly different experience for financially secure and well-educated people than for poor and uneducated people. The early mission of behavioral science research focused on identifying problems of older adults, such as isolation, caregiving, and dementia. Today, the field of gerontology is more interdisciplinary. When I'm 64 examines how individual and social behavior play a role in understanding diverse outcomes in old age. It also explores the implications of an aging workforce on the economy. The book recommends that the National Institute on Aging focus its research support in social, personality, and life-span psychology in four areas: motivation and behavioral change; socioemotional influences on decision-making; the influence of social engagement on cognition; and the effects of stereotypes on self and others. When I'm 64 is a useful resource for policymakers, researchers and medical professionals.
Over the last decade, some of the greatest achievements in the field of neuroimaging have been related to remarkable advances in magnetic resonance techniques, including diffusion, perfusion, magnetic resonance spectroscopy, and functional MRI. Such techniques have provided valuable insights into tissue microstructure, microvasculature, metabolism and brain connectivity. Previously available mostly in research environments, these techniques are now becoming part of everyday clinical practice in a plethora of clinical MR systems. Nevertheless, despite growing interest and wider acceptance, there remains a lack of a comprehensive body of knowledge on the subject, exploring the intrinsic complexity and physical difficulty of the techniques. This book focuses on the basic principles and theories of diffusion, perfusion, magnetic resonance spectroscopy, and functional MRI. It also explores their clinical applications and places emphasis on the associated artifacts and pitfalls with a comprehensive and didactic approach. This book aims to bridge the gap between research applications and clinical practice. It will serve as an educational manual for neuroimaging researchers and radiologists, neurologists, neurosurgeons, and physicists with an interest in advanced MR techniques. It will also be a useful reference text for experienced clinical scientists who wish to optimize their multi-parametric imaging approach.