Titlebook: Brain Imaging in Substance Abuse; Research, Clinical, Marc J. Kaufman (Assistant Professor of Psychiatry Book 2001 Springer Science+Busine

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Electroencephalography, Topographic Mapping, and Event-Related Potentials in Substance Abuse Resear, Luigi Galvani, discovered that frogs’ leg muscles were excitable tissues. It was not until the mid-nineteenth century, however, that scientists realized that the electrical activity of living tissue could be used as a sign of its function, when the German physiologist Du Bois-Reymond demonstrated

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maintenance

Fundamentals of Magnetic Resonance,copy (MRS), and functional magnetic resonance imaging (fMRI). MRI provides detailed information regarding brain anatomy, with spatial resolution on the order of 1 mm., and is widely used to characterize neuropathological conditions in clinical practice. MRS allows the detection of signals from certa

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Electroencephalographic Studies of Substance Use and Abuse,ew is not intended to provide an exhaustive summary of the hundreds of studies of human subjects published in peer-reviewed journals. Rather, the goal is to orient the reader toward the most consistent findings. Current trends in the literature are described and solutions to technical or methodologi

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Emission Tomographic Studies in Substance Abuse,ognized as a fundamental principle of brain functional activity (Roy and Sherrington, 1890). For several decades, the radiotracer techniques have been mainstays in the effort to noninvasively image brain function. In the last two decades, computer-based advances in computational and data processing

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Neuropsychological Correlates of Drug Abuse,ation of a range of neuroimaging modalities. This progress in technology is paralleled by the rapidly evolving knowledge base in cognitive neurobiology. The implementation of sophisticated neuroimaging methods provides us with the opportunity to measure brain processes with increased spatial and tem