Functional Brain Imaging |
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Page 30
The membrane potential at this equilibrium is called the potassium equilibrium
potential . For the described situation , compartment A will be negatively charged
relative to compartment B , even though the overall number of positive potassium
...
The membrane potential at this equilibrium is called the potassium equilibrium
potential . For the described situation , compartment A will be negatively charged
relative to compartment B , even though the overall number of positive potassium
...
Page 31
Postsynaptic potentials are generated by chemically induced changes in
membrane permeability . ... At any point in time , the transmembrane potential is
given by the Goldman - Hodgkin - Katz equation where the potential reflects the ...
Postsynaptic potentials are generated by chemically induced changes in
membrane permeability . ... At any point in time , the transmembrane potential is
given by the Goldman - Hodgkin - Katz equation where the potential reflects the ...
Page 330
+20 mV Peak potential Fig . 8-3 . Neuronal activity results in the formation of
extracellular current sources and sinks . The overall continuous current pathway
has four components : ( 1 ) the transmembrane ionic current , ( 2 ) the intracellular
...
+20 mV Peak potential Fig . 8-3 . Neuronal activity results in the formation of
extracellular current sources and sinks . The overall continuous current pathway
has four components : ( 1 ) the transmembrane ionic current , ( 2 ) the intracellular
...
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Contents
Introduction to Brain Imaging | 1 |
Computerized Axial Tomography | 97 |
Magnetic Resonance Imaging | 145 |
Copyright | |
6 other sections not shown
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Functional Brain Imaging William W. Orrison,Jeffrey Lewine,John Sanders,Michael F. Hartshorne Limited preview - 2017 |
Common terms and phrases
abnormal activity additional agents allow appearance applications arterial associated blood flow brain cause cells central cerebral changes clinical complex components computed concentration considered contrast cortex cortical decreased demonstrating depends detection diffusion direction disease echo effects emission et al evoked FMRI frequency functional glucose gradient human imaging important increased indicator injection intensity lateral less levels limited localization Magn Reson magnetic field mapping matter measured membrane methods motor nerve neurons normal Nucl nuclei object observed obtained occur oxygen particular patients pattern peak perfusion phase potential primary processing produce projections pulse recorded regions relative relaxation resolution response scan sensitivity sequences shift signal significant space spatial SPECT stimulation strength structure studies techniques temporal tion tissue tomography tumors typically visual volume York
References to this book
Bibliographic information
| Title | Functional Brain Imaging |
| Authors | William W. Orrison, Jeffrey David Lewine, Michael F. Hartshorne, John A. Sanders |
| 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 |