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Fetal development of the human amygdala.

Authors :
Mulc, Damir
Smilović, Dinko
Krsnik, Željka
Junaković‐Munjas, Alisa
Kopić, Janja
Kostović, Ivica
Šimić, Goran
Vukšić, Mario
Source :
Journal of Comparative Neurology; Jan2024, Vol. 532 Issue 1, p1-25, 25p
Publication Year :
2024

Abstract

The intricate development of the human amygdala involves a complex interplay of diverse processes, varying in speed and duration. In humans, transient cytoarchitectural structures deliquesce, leading to the formation of functionally distinct nuclei as a result of multiple interdependent developmental events. This study compares the amygdala's cytoarchitectural development in conjunction with specific antibody reactivity for neuronal, glial, neuropil, and radial glial fibers, synaptic, extracellular matrix, and myelin components in 39 fetal human brains. We recognized that the early fetal period, as a continuation of the embryonic period, is still dominated by relatively uniform histogenetic processes. The typical appearance of ovoid cell clusters in the lateral nucleus during midfetal period is most likely associated with the cell migration and axonal growth processes in the developing human brain. Notably, synaptic markers are firstly detected in the corticomedial group of nuclei, while immunoreactivity for the panaxonal neurofilament marker SMI 312 is found dorsally. The late fetal period is characterized by a protracted migration process evidenced by the presence of doublecortin and SOX‐2 immunoreactivity ventrally, in the prospective paralaminar nucleus, reinforced by vimentin immunoreactivity in the last remaining radial glial fibers. Nearing the term period, SMI 99 immunoreactivity indicates that perinatal myelination becomes prominent primarily along major axonal pathways, laying the foundation for more pronounced functional maturation. This study comprehensively elucidates the rate and sequence of maturational events in the amygdala, highlighting the key role of prenatal development in its behavioral, autonomic, and endocrine regulation, with subsequent implications for both normal functioning and psychiatric disorders. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219967
Volume :
532
Issue :
1
Database :
Complementary Index
Journal :
Journal of Comparative Neurology
Publication Type :
Academic Journal
Accession number :
175139621
Full Text :
https://doi.org/10.1002/cne.25580