Brain Mapping: The Methods, Volume 1Arthur W. Toga, John C. Mazziotta Investigation of the functional architecture of the human brain using modern noninvasive imaging techniques is a rapidly expanding area of research. A proper knowledge of methodology is needed to appreciate the burgeoning literature in the field. This timely publication provides an excellent catalogue of the main techniques. The authors offer an invaluable analysis of mapping strategies and techniques, providing everything from the foundations to the major pitfalls and practical applications of the modern techniques used in neuroimaging. Contains over 1000 full color pages with more than 200 color figures. Spanning the methodological gamut from the molecular level to the whole brain while discussing anatomy, physiology, and pathology, as well as their integration, Brain Mapping: The Methods, Second Edition, brings the reader a comprehensive, well-illustrated and entirely readable description of the methods for brain mapping. Drs. Toga and Mazziotta provide everything from the foundations to the major pitfalls and practical applications of the technique by assembling an impressive group of experts, all widely known in their field, who contribute an outstanding set of chapters. |
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... Mazziotta Ahmanson - Lovelace Brain Mapping Center Department of Neurology , Radiological Sciences and Medical and Molecular Pharmacology UCLA School of Medicine Los Angeles , California AP ACADEMIC PRESS An imprint of Elsevier Science ...
... Mazziotta Ahmanson - Lovelace Brain Mapping Center Department of Neurology , Radiological Sciences and Medical and Molecular Pharmacology UCLA School of Medicine Los Angeles , California AP ACADEMIC PRESS An imprint of Elsevier Science ...
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... Mazziotta I. Introduction to Cartography 3 II . The Dimensions of a Brain Map III . The Full Scope of Brain Mapping IV . Relationships to Other Biological Maps V. Stereotaxy 15 VI . Nomenclature 17 VII . Detection Devices 18 VIII ...
... Mazziotta I. Introduction to Cartography 3 II . The Dimensions of a Brain Map III . The Full Scope of Brain Mapping IV . Relationships to Other Biological Maps V. Stereotaxy 15 VI . Nomenclature 17 VII . Detection Devices 18 VIII ...
Contents
vi | 3 |
H Lev 427 Nader Pouratian 97 | 97 |
Vincent Walsh 255 Department of Neurology and Brain Mapping Center | 159 |
The Apparatus | 164 |
Techniques | 175 |
Electrical Stimulation and Other Input | 195 |
525 | 396 |
Introduction | 427 |
Experimental Design and Statistical Parametric Mapping | 605 |
Advanced Nonrigid Registration | 661 |
Joseph A Duimstra 819 Karl Heinz Höhne 707 | 707 |
Brain Averaging | 757 |
Adapting the Reporter Gene Concept | 801 |
Introduction | 819 |
Speculations about the Future | 829 |
Hellmuth Obrig 141 Institute of Mathematics and Computer Science | 831 |
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Common terms and phrases
analysis anatomical applied approach averaging axon Blood Flow Metab BOLD signal brain activity brain mapping brain slices calcium camera Cannestra cells cerebral blood flow cerebral cortex changes Clin cognitive coil confocal confocal microscopy cortical surface dendritic deoxyhemoglobin detection dynamic effects electrical electrode Electroencephalogr electrophysiological evoked fluorescence fMRI Frostig functional maps Gevins Grinvald hemoglobin human brain increase intrinsic signal imaging labeled Magn magnetic field magnetic resonance magnetic resonance imaging Mazziotta measurements metabolism methods microscope monitoring mossy fiber motoneurons motor cortex MRSI muscle near-infrared neural NeuroImage neuronal activity Neurophysiol Neurosci NIRS noise olfactory bulb optical imaging optical signals oxygen Physiol physiological potential recordings regions response rodent sampling sensory signal-to-noise ratio somatosensory spatial resolution spectroscopy structure studies synaptic techniques temporal resolution tion tissue transcranial magnetic stimulation vascular vessels Villringer visual cortex vivo voltage-sensitive dyes voxel wavelengths whisker