Functional Brain Imaging |
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Page 15
Nerve cells have four major morphologic and functional regions: (1) the dendrites
, (2) the cell body (soma), (3) the axon, and (4) the axonal terminal region and
associated synaptic terminal contacts with other cells. striking features of the ...
Nerve cells have four major morphologic and functional regions: (1) the dendrites
, (2) the cell body (soma), (3) the axon, and (4) the axonal terminal region and
associated synaptic terminal contacts with other cells. striking features of the ...
Page 38
Up until the middle of the second week, the cells of the ectoderm are
equipotential. That is, any particular cell is equally capable of developing into
neurons, glia, or epithelial cells. Between the second and third weeks, neural
induction occurs.
Up until the middle of the second week, the cells of the ectoderm are
equipotential. That is, any particular cell is equally capable of developing into
neurons, glia, or epithelial cells. Between the second and third weeks, neural
induction occurs.
Page 67
Different cortical layers interconnect with different sites. (Adapted from Kandel ER
, Schwartz JH: Principles of neuroscience, ed 2, New York, 1985, Elsevier
Science Publishing.) Fig. 2-70. Some cells in somatosensory association areas
display ...
Different cortical layers interconnect with different sites. (Adapted from Kandel ER
, Schwartz JH: Principles of neuroscience, ed 2, New York, 1985, Elsevier
Science Publishing.) Fig. 2-70. Some cells in somatosensory association areas
display ...
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Contents
Introduction to Brain Imaging | 1 |
Computerized Axial Tomography | 97 |
Magnetic Resonance Imaging | 145 |
Copyright | |
6 other sections not shown
Other editions - View all
Functional Brain Imaging William W. Orrison,Jeffrey Lewine,John Sanders,Michael F. Hartshorne Limited preview - 2017 |
Common terms and phrases
abnormal activity arterial auditory Axial axon basal ganglia blood volume capillary cells central central sulcus cerebral blood flow cerebral cortex clinical coil components computed computed tomography contrast agent cortex cortical decreased demonstrating detection diffusion dipole disease effects encoding epilepsy extracellular field strength FMRI focal frequency frontal functional Gd-DTPA glucose gradient hemorrhage HMPAO infarction inhomogeneous injection lesions Magn Reson magnetic field magnetic resonance imaging mapping measured membrane metabolism metabolite methods motor msec neoplasms nerve nervous system neural neuromagnetic neurons normal Nucl nuclei oxygen paramagnetic patients pattern peak perfusion phase positron emission tomography processing projections proton pulse rCBF receptors relaxation scan seizures sensitivity sequences signal changes signal intensity slice SMRM Annual Meeting somatosensory spatial SPECT spectra spikes spin echo stimulation studies T2-weighted techniques temporal lobe thalamus tion tissue tumors uptake visual voxel white matter
Bibliographic information
| Title | Functional Brain Imaging |
| Author | William W. Orrison |
| Editor | William W. Orrison |
| Edition | illustrated |
| Publisher | Mosby, 1995 |
| Original from | the University of Michigan |
| Digitized | 5 Aug 2008 |
| ISBN | 0815165099, 9780815165095 |
| Length | 479 pages |
| Subjects | › Medical / Radiology, Radiotherapy & Nuclear Medicine |
| Export Citation | BiBTeX EndNote RefMan |