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Extracellular space structure revealed by diffusion analysis
C Nicholson, E Sykova
Language English Country England, Great Britain
Document type Research Support, Non-U.S. Gov't, Research Support, U.S. Gov't, P.H.S., Review
Grant support
IZ3423
MZ0
CEP Register
Digital library NLK
Full text - Část
Source
NLK
ScienceDirect (archiv)
from 1993-01-01 to 2009-12-31
PubMed
9610885
Knihovny.cz E-resources
- MeSH
- Corpus Callosum ultrastructure MeSH
- Diffusion MeSH
- Extracellular Space * MeSH
- Humans MeSH
- Brain * ultrastructure MeSH
- Cerebral Cortex ultrastructure MeSH
- Brain Injuries pathology MeSH
- Animals MeSH
- Check Tag
- Humans MeSH
- Animals MeSH
- Publication type
- Research Support, Non-U.S. Gov't MeSH
- Review MeSH
- Research Support, U.S. Gov't, P.H.S. MeSH
The structure of brain extracellular space resembles foam. Diffusing molecules execute random movements that cause their collision with membranes and affect their concentration distribution. By measuring this distribution, the volume fraction (alpha) and the tortuosity (lambda) can be estimated. The volume fraction indicates the relative amount of extracellular space and tortuosity is a measure of hindrance of cellular obstructions. Diffusion measurements with molecules <500 Mr show that alpha approximately 0.2 and lambda approximately 1.6, although some brain regions are anisotropic. Molecules > or =3000 Mr show more hindrance, but molecules of 70000 Mr can move through the extracellular space. During stimulation, and in pathophysiological states, alpha and lambda change, for example in severe ischemia alpha = 0.04 and lambda = 2.2. These data support the feasibility of extrasynaptic or volume transmission in the extracellular space.
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- $a The structure of brain extracellular space resembles foam. Diffusing molecules execute random movements that cause their collision with membranes and affect their concentration distribution. By measuring this distribution, the volume fraction (alpha) and the tortuosity (lambda) can be estimated. The volume fraction indicates the relative amount of extracellular space and tortuosity is a measure of hindrance of cellular obstructions. Diffusion measurements with molecules <500 Mr show that alpha approximately 0.2 and lambda approximately 1.6, although some brain regions are anisotropic. Molecules > or =3000 Mr show more hindrance, but molecules of 70000 Mr can move through the extracellular space. During stimulation, and in pathophysiological states, alpha and lambda change, for example in severe ischemia alpha = 0.04 and lambda = 2.2. These data support the feasibility of extrasynaptic or volume transmission in the extracellular space.
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- $c Grant Number: NS34115 (United States NINDS NIH HHS)
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