Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /

Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /

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Experimental methods for the mapping of nervous pathways are based partlyon the study of retrograde processes in the perikaryon, partlyon the demonstration of degenerative processes along the peripheral part of a transected axon. For this purpose, the Marchi method by which a selective staining of degenerating myelin is obtained has been extensively used. However, when this method is used the non-myelinated terminals of the transected axons are not stained. The introduction, about two decades ago, of silver impregnation as a means of tracing degenerating axons (especially the Glees and Nauta methods) by which also terminal boutons can be demonstrated, led therefore to revolutionary progress in the investigation of interneuronal connections. Notwithstanding, there are weH known difficulties involved in this kind of research. The capriciousness of the silver methods not seldom results in failure of impregnation with loss of valuable experimental animals. But even when well impregnated sections are used, other fundamental difficulties exist. One of the major problems is to prove beyond doubt that the impregnated structures are degenerating boutons and not merely fragments of non-terminal fibres passing the area under examination. Furthermore, only on occasion will silver impregnation permit one to accurately define the specific part of the receiving neuron on which the impregnated fibres end, i. e. , whether the bouton makes contact with soma, dendrite or spine.

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Main Authors: Alksne, John F. author., Blackstad, Theodor W. author., Walberg, Fred. author., White, Lowell E. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 1966
Subjects:Medicine., Neurosciences., Neurology., Medicine & Public Health.,
Online Access:http://dx.doi.org/10.1007/978-3-662-30450-1
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spelling KOHA-OAI-TEST:1995982018-07-30T23:26:27ZElectron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] / Alksne, John F. author. Blackstad, Theodor W. author. Walberg, Fred. author. White, Lowell E. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,1966.engExperimental methods for the mapping of nervous pathways are based partlyon the study of retrograde processes in the perikaryon, partlyon the demonstration of degenerative processes along the peripheral part of a transected axon. For this purpose, the Marchi method by which a selective staining of degenerating myelin is obtained has been extensively used. However, when this method is used the non-myelinated terminals of the transected axons are not stained. The introduction, about two decades ago, of silver impregnation as a means of tracing degenerating axons (especially the Glees and Nauta methods) by which also terminal boutons can be demonstrated, led therefore to revolutionary progress in the investigation of interneuronal connections. Notwithstanding, there are weH known difficulties involved in this kind of research. The capriciousness of the silver methods not seldom results in failure of impregnation with loss of valuable experimental animals. But even when well impregnated sections are used, other fundamental difficulties exist. One of the major problems is to prove beyond doubt that the impregnated structures are degenerating boutons and not merely fragments of non-terminal fibres passing the area under examination. Furthermore, only on occasion will silver impregnation permit one to accurately define the specific part of the receiving neuron on which the impregnated fibres end, i. e. , whether the bouton makes contact with soma, dendrite or spine.Experimental methods for the mapping of nervous pathways are based partlyon the study of retrograde processes in the perikaryon, partlyon the demonstration of degenerative processes along the peripheral part of a transected axon. For this purpose, the Marchi method by which a selective staining of degenerating myelin is obtained has been extensively used. However, when this method is used the non-myelinated terminals of the transected axons are not stained. The introduction, about two decades ago, of silver impregnation as a means of tracing degenerating axons (especially the Glees and Nauta methods) by which also terminal boutons can be demonstrated, led therefore to revolutionary progress in the investigation of interneuronal connections. Notwithstanding, there are weH known difficulties involved in this kind of research. The capriciousness of the silver methods not seldom results in failure of impregnation with loss of valuable experimental animals. But even when well impregnated sections are used, other fundamental difficulties exist. One of the major problems is to prove beyond doubt that the impregnated structures are degenerating boutons and not merely fragments of non-terminal fibres passing the area under examination. Furthermore, only on occasion will silver impregnation permit one to accurately define the specific part of the receiving neuron on which the impregnated fibres end, i. e. , whether the bouton makes contact with soma, dendrite or spine.Medicine.Neurosciences.Neurology.Medicine & Public Health.Neurology.Neurosciences.Springer eBookshttp://dx.doi.org/10.1007/978-3-662-30450-1URN:ISBN:9783662304501
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Medicine.
Neurosciences.
Neurology.
Medicine & Public Health.
Neurology.
Neurosciences.
Medicine.
Neurosciences.
Neurology.
Medicine & Public Health.
Neurology.
Neurosciences.
spellingShingle Medicine.
Neurosciences.
Neurology.
Medicine & Public Health.
Neurology.
Neurosciences.
Medicine.
Neurosciences.
Neurology.
Medicine & Public Health.
Neurology.
Neurosciences.
Alksne, John F. author.
Blackstad, Theodor W. author.
Walberg, Fred. author.
White, Lowell E. author.
SpringerLink (Online service)
Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /
description Experimental methods for the mapping of nervous pathways are based partlyon the study of retrograde processes in the perikaryon, partlyon the demonstration of degenerative processes along the peripheral part of a transected axon. For this purpose, the Marchi method by which a selective staining of degenerating myelin is obtained has been extensively used. However, when this method is used the non-myelinated terminals of the transected axons are not stained. The introduction, about two decades ago, of silver impregnation as a means of tracing degenerating axons (especially the Glees and Nauta methods) by which also terminal boutons can be demonstrated, led therefore to revolutionary progress in the investigation of interneuronal connections. Notwithstanding, there are weH known difficulties involved in this kind of research. The capriciousness of the silver methods not seldom results in failure of impregnation with loss of valuable experimental animals. But even when well impregnated sections are used, other fundamental difficulties exist. One of the major problems is to prove beyond doubt that the impregnated structures are degenerating boutons and not merely fragments of non-terminal fibres passing the area under examination. Furthermore, only on occasion will silver impregnation permit one to accurately define the specific part of the receiving neuron on which the impregnated fibres end, i. e. , whether the bouton makes contact with soma, dendrite or spine.
format Texto
topic_facet Medicine.
Neurosciences.
Neurology.
Medicine & Public Health.
Neurology.
Neurosciences.
author Alksne, John F. author.
Blackstad, Theodor W. author.
Walberg, Fred. author.
White, Lowell E. author.
SpringerLink (Online service)
author_facet Alksne, John F. author.
Blackstad, Theodor W. author.
Walberg, Fred. author.
White, Lowell E. author.
SpringerLink (Online service)
author_sort Alksne, John F. author.
title Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /
title_short Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /
title_full Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /
title_fullStr Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /
title_full_unstemmed Electron Microscopy of Axon Degeneration: A Valuable Tool in Experimental Neuroanatomy [electronic resource] /
title_sort electron microscopy of axon degeneration: a valuable tool in experimental neuroanatomy [electronic resource] /
publisher Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,
publishDate 1966
url http://dx.doi.org/10.1007/978-3-662-30450-1
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AT walbergfredauthor electronmicroscopyofaxondegenerationavaluabletoolinexperimentalneuroanatomyelectronicresource
AT whitelowelleauthor electronmicroscopyofaxondegenerationavaluabletoolinexperimentalneuroanatomyelectronicresource
AT springerlinkonlineservice electronmicroscopyofaxondegenerationavaluabletoolinexperimentalneuroanatomyelectronicresource
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