Pränatale Reifung und postnatale Veränderung im Cortex des Meerschweinchens: 
Mikroskopische Auswertung eines natürlichen Deprivationsexperimente II: 
Postnatale Veränderungen [Prenatal Development and Postnatal Changes in the 
Guinea Pig Cortex: Microscopic Evaluation of a Natural Deprivation Experiment 
II: Postnatal Changes]

Schüz, A

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Pränatale Reifung und postnatale Veränderung im Cortex des Meerschweinchens: Mikroskopische Auswertung eines natürlichen Deprivationsexperimente II: Postnatale Veränderungen [Prenatal Development and Postnatal Changes in the Guinea Pig Cortex: Microscopic Evaluation of a Natural Deprivation Experiment II: Postnatal Changes]

Schüz, A. (1981). Pränatale Reifung und postnatale Veränderung im Cortex des Meerschweinchens: Mikroskopische Auswertung eines natürlichen Deprivationsexperimente II: Postnatale Veränderungen [Prenatal Development and Postnatal Changes in the Guinea Pig Cortex: Microscopic Evaluation of a Natural Deprivation Experiment II: Postnatal Changes]. Journal für Hirnforschung, 22(1), 113-127.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0006-891D-0 Version Permalink: https://hdl.handle.net/21.11116/0000-0006-8921-A

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Schüz, A^{1, 2}, Author

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1Former Department Structure and Function of Natural Nerve-Net , Max Planck Institute for Biological Cybernetics, Max Planck Society, ou_1497803
2Max Planck Institute for Biological Cybernetics, Max Planck Society, Spemannstrasse 38, 72076 Tübingen, DE, ou_1497794

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Abstract: In order to approach the question of how the brain is moulded by environmental stimuli, the neocortex of guinea-pigs just before birth was compared to that of adult animals. In part I of this work we have already seen that the majority of synapses and dendritic spines is already developed before birth in this animal. The investigation was made in precallosal and postcallosal cortex. The samples for electronmicroscopy were taken from the second layer. After birth the following changes have been observed in these areas of the guinea-pig cortex: 1. A slight increase in the thickness of dendrites and dendritic spines (fig. 4). (A changes in the distribution of spines along the dendrite could not be observed; fig. 5). 2. An increase in the number of myelinated fibers, especially in the first layer (fig. 16). 3. An increase in the diameter of the individual synaptic contact area by an average of 10% (fig. 6) which is, however, only significant in the precallosal area. The frequency distribution of synaptic size was similar in prenatal and adult guinea-pigs (fig. 7). 4. A significant increase in the relative number of synapses with postsynaptic perforations (fig. 1c) from 6% to 10% of all synapses. An increase in the thickness of the postsynaptic thickening of asymmetric synapses (fig. 15).

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Dates: Date issued: 1981-01

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Title: Journal für Hirnforschung

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Pages: - Volume / Issue: 22 (1) Sequence Number: - Start / End Page: 113 - 127 Identifier: -