The development of cerebral connections during the first 20–45 weeks’ gestation

We have correlated data on neuroanatomical organization and magnetic resonance imaging of transient fetal zones shown to contain connectivity elements (growing axons, synapses, dendrites). In the fetal phase, afferent fibres ‘wait’ within the subplate zone which is the most prominent lamina on histo...

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Bibliographic Details
Published in:Seminars in fetal & neonatal medicine 2006-12, Vol.11 (6), p.415-422
Main Authors: Kostović, Ivica, Jovanov-Milošević, Nataša
Format: Article
Language:English
Subjects:
Cerebral Cortex - embryology
Cerebral Cortex - growth & development
Cerebral pathways
Child Development - physiology
Female
Fetal Development - physiology
Humans
Infant, Newborn - growth & development
Magnetic Resonance Imaging
Neural Pathways - embryology
Neural Pathways - growth & development
Pregnancy
Preterm infant
Synaptogenesis histogenesis
Thalamocortical afferents
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Summary:We have correlated data on neuroanatomical organization and magnetic resonance imaging of transient fetal zones shown to contain connectivity elements (growing axons, synapses, dendrites). In the fetal phase, afferent fibres ‘wait’ within the subplate zone which is the most prominent lamina on histological and magnetic resonance images and is a substrate of endogenous neuronal activity. In early preterm the thalamocortical afferents accumulate within the superficial subplate and grow into cortical plate developing synapses. In late preterm, the resolution of the subplate and growth of cortico-cortical fibres into the cortical plate occur simultaneously with gyration. Both preterm phases characterize the coexistence of endogenous and sensory-driven circuitries and occurrence of the transient electrical phenomena. In neonates, the long cortico-cortical pathways stop growth, and the main histogenetic events are an elaboration of intracortical circuitry and synaptogenesis. In conclusion, the growth of the axonal pathways preterm explains their vulnerability and plasticity. In neonates the vulnerability is related to the intracortical circuitry.
ISSN:1744-165X
1878-0946
DOI:10.1016/j.siny.2006.07.001