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Computational neuroscience : simulated demyelinating neuropathies and neuronopathies / Diana Ivanova Stephanova, Institute of Biophysics and Biomedical Engineering, Bulgarian Academy of Sciences, Sofia, Bulgaria and Bozhidar Dimitrov, Institut
Author
Stephanova, Diana I.
[Browse]
Format
Book
Language
English
Εdition
1st edition
Published/Created
Boca Raton : CRC Press, 2013.
Description
1 online resource (148 p.)
Availability
Available Online
SCI-TECHnetBASE
O'Reilly Online Learning: Academic/Public Library Edition
Details
Subject(s)
Computational neuroscience
[Browse]
Neurogenetics
—
Computer simulation
[Browse]
Author
Dimitrov, Bozhidar
[Browse]
Summary note
Preface Preface v vi Computational Neuroscience Simulated Demyelinating Neuropathies and Neuronopathies (PISD) are specifi c indicators for CIDP and its subtypes; (3) the severe focal demyelinations, each of them internodal and paranodal, paranodalinternodal (IFD and PFD, PIFD), are specifi c indicators for acquired demyelinating neuropathies such as GBS and MMN; (4) the simulated progressively greater degrees of axonal dysfunctions termed ALS1, ALS2 and ALS3 are specifi c indicators for the motor neuron disease ALS Type1, Tape2 and Type3; and (5) the obtained excitability properties in the simulated demyelinating neuropathies are quite different from those in the simulated ALS subtypes, because of the different fi bre electrogenesis. The results show that the abnormalities in the axonal excitability properties in the ALS1 subtype are near normal. The results also show that in the simulated hereditary, chronic and acquired demyelinating neuropathies, the slowing of action potential propagation, based on the myelin sheath dysfunctions, is larger than this, based on the progressively increased uniform axonal dysfunctions in the simulated ALS2 and ALS3 subtypes. Conversely, the abnormalities in the accommodative and adaptive processes are larger in the ALS2 and ALS3 subtypes than in the demyelinating neuropathies. The increased axonal superexcitability in the ALS2 and ALS3 subtypes leads to repetitive discharges (action potential generation) in the nodal and internodal axolemma beneath the myelin sheath along the fi bre length in response to the applied long-duration subthreshold polarizing current stimuli (accommodative processes) and to the applied long-duration suprathreshold depolarizing current stimuli (adaptive processes)-- Provided by publisher.
Notes
"Science publishers book."
Bibliographic references
Includes bibliographical references.
Language note
English
Contents
I. Nerve fibres
II. Models and methods for investigation of the human motor nerve fibre
III. Simulated demyelinating neuropathies and neuropathies
IV. Effect of myelin sheath aqueous layers on the excitability properties of simulated hereditary and chronic demyelinating neuropathies.
Show 1 more Contents items
ISBN
0-429-18796-3
1-4665-7836-X
OCLC
844924363
Doi
10.1201/b14589
Statement on language in description
Princeton University Library aims to describe library materials in a manner that is respectful to the individuals and communities who create, use, and are represented in the collections we manage.
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