This richly illustrated and superbly organized text/atlas is an excellent point-of-care resource for practitioners at all levels of experience and training. Written by global leaders in the field, Imaging Anatomy: Brain and Spine provides a thorough understanding of the detailed normal anatomy that underlies contemporary imaging. This must-have reference employs a templated, highly formatted design; concise, bulleted text; and state-of- the-art images throughout that identify the clinical entities in each anatomic area.
- Features more than 2,500 high-resolution images throughout, including 7T MR, fMRI, diffusion tensor MRI, and multidetector row CT images in many planes, combined with over 300 correlative full-color anatomic drawings that show human anatomy in the projections that radiologists use.
- Covers only the brain and spine, presenting multiplanar normal imaging anatomy in all pertinent modalities for an unsurpassed, comprehensive point-of-care clinical reference.
- Incorporates recent, stunning advances in imaging such as 7T and functional MR imaging, surface and segmented anatomy, single-photon emission computed tomography (SPECT) scans, dopamine transporter (DAT) scans, and 3D quantitative volumetric scans.
- Places 7T MR images alongside 3T MR images to highlight the benefits of using 7T MR imaging as it becomes more widely available in the future.
- Presents essential text in an easy-to-digest, bulleted format, enabling imaging specialists to find quick answers to anatomy questions encountered in daily practice.
- Includes the Expert ConsultT version of the book,
- allowing you to search all the text, figures, and references on a variety of devices.
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SECTION 1 SCALP, SKULL, AND MENINGS |
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Scalp and Calvarial Vault |
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4 | (6) |
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10 | (8) |
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Pia and Perivascular Spaces |
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18 | (10) |
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SECTION 2 SUPRATENTORIAL BRAIN ANATOMY |
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Cerebral Hemispheres Overview |
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28 | (14) |
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42 | (8) |
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50 | (28) |
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Basal Ganglia and Thalamus |
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78 | (16) |
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94 | (6) |
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100 | (12) |
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Sella, Pituitary, and Cavernous Sinus |
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112 | (12) |
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124 | (4) |
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Primary Somatosensory Cortex (Areas 1, 2, 3) |
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128 | (6) |
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Primary Motor Cortex (Area 4) |
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134 | (6) |
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Superior Parietal Cortex (Areas 5, 7) |
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140 | (6) |
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Premotor Cortex and Supplementary Motor Area (Area 6) |
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146 | (6) |
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Superior Prefrontal Cortex (Area 8) |
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152 | (6) |
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Dorsolateral Prefrontal Cortex (Areas 9, 46) |
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158 | (6) |
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164 | (6) |
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Orbitofrontal Cortex (Area 11) |
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170 | (6) |
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Insula and Parainsula Areas (Areas 13, 43) |
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176 | (6) |
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Primary Visual and Visual Association Cortex (Areas 17, 18, 19) |
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182 | (6) |
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Temporal Cortex (Areas 20, 21, 22) |
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188 | (6) |
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Posterior Cingulate Cortex (Areas 23, 31) |
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194 | (6) |
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Anterior Cingulate Cortex (Areas 24, 32, 33) |
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200 | (6) |
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Subgenual Cingulate Cortex (Area 25) |
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206 | (6) |
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Retrosplenial Cingulate Cortex (Areas 29, 30) |
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212 | (6) |
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Parahippocampal Gyrus (Areas 28, 34, 35, 36) |
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218 | (6) |
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224 | (6) |
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230 | (6) |
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Inferior Parietal Lobule (Areas 39, 40) |
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236 | (6) |
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Primary Auditory and Auditory Association Cortex (Areas 41, 42) |
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242 | (6) |
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Inferior Frontal Gyrus (Areas 44, 45, 47) |
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248 | (8) |
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Functional Network Overview |
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256 | (4) |
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260 | (4) |
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264 | (4) |
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Attention Control Network |
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268 | (2) |
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270 | (10) |
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280 | (8) |
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288 | (2) |
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290 | (4) |
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294 | (4) |
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298 | (4) |
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Brainstem and Cerebellum Overview |
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302 | (10) |
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312 | (6) |
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318 | (8) |
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326 | (4) |
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330 | (8) |
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Cerebellopontine Angle/IAC |
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338 | (8) |
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Ventricles and Choroid Plexus |
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346 | (12) |
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Subarachnoid Spaces/Cisterns |
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358 | (14) |
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372 | (12) |
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384 | (16) |
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400 | (12) |
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412 | (10) |
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422 | (12) |
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434 | (6) |
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440 | (10) |
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450 | (8) |
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458 | (6) |
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464 | (16) |
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480 | (4) |
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484 | (10) |
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Vestibulocochlear Nerve (CNVIII) |
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494 | (8) |
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Glossopharyngeal Nerve (CNIX) |
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502 | (6) |
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508 | (8) |
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516 | (4) |
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Hypoglossal Nerve (CNXII) |
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520 | (10) |
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Aortic Arch and Great Vessels |
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530 | (4) |
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Cervical Carotid Arteries |
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534 | (12) |
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Intracranial Arteries Overview |
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546 | (4) |
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Intracranial Internal Carotid Artery |
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550 | (8) |
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558 | (4) |
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562 | (6) |
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568 | (8) |
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Posterior Cerebral Artery |
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576 | (10) |
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586 | (12) |
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Intracranial Venous System Overview |
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598 | (8) |
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606 | (10) |
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Superficial Cerebral Veins |
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616 | (6) |
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622 | (14) |
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636 | (6) |
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642 | (12) |
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Vertebral Column Overview |
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654 | (8) |
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662 | (16) |
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Vertebral Body and Ligaments |
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678 | (18) |
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Intervertebral Disc and Facet Joints |
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696 | (8) |
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704 | (6) |
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710 | (18) |
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728 | (20) |
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748 | (12) |
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760 | (16) |
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776 | (14) |
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Spinal Cord and Cauda Equina |
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790 | (10) |
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Meninges and Compartments |
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800 | (12) |
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812 | (10) |
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Spinal Veins and Venous Plexus |
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822 | (10) |
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832 | (12) |
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844 | (6) |
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Sacral Plexus and Sciatic Nerve |
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850 | (6) |
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Peripheral Nerve and Plexus Overview |
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856 | |
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Anne G. Osborn, MD, FACR, is a Distinguished Professor Emeritus at the
University of Utah School of Medicine in
Salt Lake City, Utah
Karen L. Salzman, MD, FACR, is Professor of Radiology and Imaging Sciences. She is the Neuroradiology Section Chief and Associate Fellowship Director, and holds the Leslie W. Davis Endowed Chair in Neuroradiology at the University of Utah School of Medicine in Salt Lake City, Utah. Arthur W. Toga is the Director, Laboratory of Neuro Imaging, Director, Institute of Neuroimaging and Informatics, Provost Professor, Departments of Ophthalmology, Neurology, Psychiatry, and the Behavioral Sciences, Radiology and Engineering at the Keck School of Medicine of USC. His research is focused on neuroimaging, informatics, mapping brain structure and function, and brain atlasing. He has developed multimodal imaging and data aggregation strategies and applied them in a variety of neurological diseases and psychiatric disorders. His work in informatics includes the development and implementation of some of the largest and most widely used databases and data mining tools linking disparate data from genetics, imaging, clinical and behavior, supporting global efforts in Alzheimer's disease, Huntington's and Parkinson's disease. He was trained in neuroscience and computer science and has written more than 1,000 papers, chapters and abstracts, including eight books. Recruited to USC in 2013, he directs the Laboratory of Neuro Imaging. This 110-member laboratory includes graduate students from computer science, biostatistics and neuroscience. It is funded with grants from the National Institutes of Health grants as well as industry partners. He has received numerous awards and honors in computer science, graphics and neuroscience. Prior to coming to USC he was a Distinguished Professor Neurology at UCLA, held the Geffen Chair of Informatics at the David Geffen School of Medicine at UCLA, Associate Director of the UCLA Brain Mapping Division within the Neuropsychiatric Institute, and Associate Dean, David Geffen School of Medicine at UCLA. He is the founding Editor-in-Chief of the journal NeuroImage and holds the chairmanship of numerous committees within NIH and a variety of international task forces. Kevin R. Moore, MD is an adjunct professor of radiology at the University of Utah School of Medicine in Salt Lake City, Utah. He is a pediatric radiologist and neuroradiologist at Intermountain Pediatric Imaging at Primary Children's Hospital in Salt Lake City, Utah.
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