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Digitale Medien

Lesions of excitatory pathways reduce hippocampal cell death after transient forebrain ischemia in the gerbil (1989)

Kaplan, T. M. ; Lasner, T. M. ; Nadler, J. V. ; [weitere]

Springer

Acta neuropathologica 78 (1989), S. 283-290

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ISSN: 1432-0533

Schlagwort(e): Cerebral ischemia ; Hippocampus ; CA1 pyramidal cells ; Neuropathology

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Transient forebrain ischemia produces a spatially and temporally selective pattern of neuronal degeneration in the hippocampal formation of the Mongolian gerbil. Ischemic neuronal death has been suggested to depend on the activation of excitatory hippocampal pathways that project to the vulnerable neurons. This idea was tested by examining the effect of a unilateral entorhinal cortical lesion or a unilateral knife cut lesion of intrahippocampal pathways on the neuropathology produced by 5 min of complete fore-brain ischemia. A prior lesion of either the ipsilateral entorhinal cortex or the mossy fiber and Schaffer collateral-commissural pathways partially prevented the destruction of CA1b pyramidal cells in most animals. It did not, however, reduce the extent of ischemic neuronal death in any other hippocampal subfield. Within area CA1b, an entorhinal lesion protected an average of 23% of the pyramidal cells and a transection of both mossy and Schaffer collateral-commissural fibers protected an average of 36.5%. CA1b pyramidal cells saved from ischemia-induced degeneration appeared clearly abnormal when stained with cresyl violet or by silver impregnation. It is suggested that lesions of excitatory pathways attenuate ischemic damage to area CA1b by directly or indirectly reducing the level of synaptic excitation onto the vulnerable neurons. However, only a relatively small percentage of hippocampal neurons can be protected by these lesions in the gerbil ischemia model and there is reason to believe that the neurons protected in this manner may not be electrophysiologically competent. Synaptic excitation therefore appears to play an important, but not an essential, role in this model of ischemic brain damage.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00687758

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Digitale Medien

The laminar distribution of neuritic plaques in the fascia dentata of patients with Alzheimer's disease (1988)

Crain, B. J. ; Burger, P. C.

Springer

Acta neuropathologica 76 (1988), S. 87-93

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ISSN: 1432-0533

Schlagwort(e): Alzheimer's disease ; Neuritic plaques ; Fascia dentata ; Hippocampal formation

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Neuritic plaques are prominent in the fascia dentata of the hippocampus and are often linearly oriented in stratum moleculare. Since the afferents to this region are also organized in a laminar pattern, the present study focused on the relative number and laminar distribution of plaques in this region to shed light on the genesis of the neuritic plaques. Examination of 19 brains from patients with Alzheimer's disease showed approximately the same number of plaques in the stratum moleculare of the fascia dentata and in CA1 (Sommer's sector) of the hippocampus, even though the area of the latter is much greater. Laminar analysis of plaque location showed that the plaques were centered on a band between 26% and 40% of the way between the border of stratum granulosum and the outer edge of stratum moleculare. The mean location was 35% of the way through the layer at the intersection of the inner and middle thirds. Plaques appear in approximately the same location, but in lesser numbers, in non-demented patients. The significance of this localization is discussed in terms of the normal anatomy of the fascia dentata and its possible reorganization in Alzheimer's disease. The predictability of plaque formation in this region could be useful in defining the pathogenesis of the neuritic plaque.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00687684

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Digitale Medien

Electron microscopic study of the gerbil dentate gyrus after transient forebrain ischemia (1990)

Crain, B. J. ; Evenson, D. A. ; Polsky, K. ; [weitere]

Springer

Acta neuropathologica 79 (1990), S. 409-417

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ISSN: 1432-0533

Schlagwort(e): Cerebral ischemia ; Hippocampus ; Dentate gyrus ; Perforant path ; Electron-dense degeneration

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Silver impregnation performed 1–2 days after transient forebrain ischemia in the Mongolian gerbil demonstrated terminal-like granular deposits in the outer two-thirds of the hippocampal dentate molecular layer (perforant path terminal zone), even though neither the cell bodies of origin of the perforant path nor the dentate granule cells were destroyed. Electron microscopic studies of the dentate gyrus were performed in an effort to discover the identity of these degenerating structures. Electron microscopy revealed that the granular silver deposits corresponded to electron-dense profiles. Many of these were degenerating boutons and some were degenerating postsynaptic dendritic fragments, but most of them could not be identified with certainty. Electron-dense profiles were less numerous than expected from the density of granular silver deposits. These structures were probably the degenerating axons, axon terminals and dendrites of CA4 neurons. The granular silver deposits and electron-dense boutons observed in the inner third of the dentate molecular layer 5 days after transient ischemia can probably be explained by the ischemia-induced degeneration of CA4 mossy cells, which give rise to the dentate associational-commissural projection. Finally, most mossy fiber boutons in area CA4 and some boutons in the molecular layer appeared watery and enlarged on postischemia days 1 and 2. Mossy fiber boutons with this ultrastructural appearance have previously been observed in seizure-prone animals and in animals undergoing convulsant-induced seizures. Although no postischemic seizures occur under the conditions of this study, these findings support the idea that excitatory pathways become hyperactive after transient ischemia.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00308717

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