Developmental Neurobiology, Part 489Philippe Evrard (Prof.), Alexandre Minkowski Proceedings of a conference (date and place unspecified) to provide an interchange between researchers and clinicians on the causes of prenatal and neonatal neurological damage. Focuses on environmental, and especially nutritional, factors. Topics include the normal development of the cerebral neocortex, cellular interactions during neuronal development, gene mapping techniques, and brain development and nutrition. Annotation copyrighted by Book News, Inc., Portland, OR |
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Page 7
... synaptic complement does appear early in histogenesis . Widely dispersed synapses may , for example , be identified in the molecular and subplate layers of the neocor- tex from the earliest events of neocortical histogenesis . Much ...
... synaptic complement does appear early in histogenesis . Widely dispersed synapses may , for example , be identified in the molecular and subplate layers of the neocor- tex from the earliest events of neocortical histogenesis . Much ...
Page 8
... synapses . In the visual cortex of the human cerebral hemisphere , for example , the overshoot may be 30 % to 40 % ( 25 ) . Peak synaptic complement is achieved in the first 6 to 12 months of postnatal life and sustained for ...
... synapses . In the visual cortex of the human cerebral hemisphere , for example , the overshoot may be 30 % to 40 % ( 25 ) . Peak synaptic complement is achieved in the first 6 to 12 months of postnatal life and sustained for ...
Page 44
... synaptic elimination on the one hand from cell death on the other . Cell death seems to proceed independently of axon pruning and synaptic elimination , which are re- gressive events involving cells that will ultimately survive and ...
... synaptic elimination on the one hand from cell death on the other . Cell death seems to proceed independently of axon pruning and synaptic elimination , which are re- gressive events involving cells that will ultimately survive and ...
Contents
Normal Development of Cerebral Neocortex | 1 |
JeanMarie Bourre Développement | 10 |
Cerebral Malformations Arising in the First Half of Gestation | 11 |
Copyright | |
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Common terms and phrases
abnormal adrenoleukodystrophy adult animals astrocytes axons basic protein Baumann bile acids biochemical Biol biosynthesis Bourre JM brain development Brain Res catalase Caviness cellular central nervous system cerebellar cerebellum cerebral chain fatty acids chromosome ciliary ganglion cortical culture D-amino acid oxidase defect diet disease effect elongation enzyme essential fatty acid ethanol factors fatty acid deficiency fetal fibers function gene gestation glial cells Goldfischer growth hemorrhage human infants interactions jimpy lesions lignoceric acid linolenic acid lipids liver long chain fatty malnutrition MBP mRNA membrane metabolism mice microsomes migration mitochondria molecular mouse brain mRNA mutant myelin basic protein ND ND neonatal nerve neural neurite Neurochem neurological neurons normal Nutrition oligodendrocytes oxidation patients peroxisomes phospholipids phytanic acid pipecolic acid plasmalogens postnatal prenatal PUFAs Purkinje cells quaking Rat 14K rat brain receptors reeler Refsum's disease sequence specific stearic acid striatal studies synaptic syndrome synthesis target tion tissue undernutrition visual vitro Zellweger