Authors
Guillaume Laliberté, Denis Boire
Published in
Cerebral cortex (New York, N.Y. : 1991). Volume 36. Issue 6. May 04, 2026.
Abstract
Early sensory deprivation drives large-scale reconfiguration of cortical networks, yet we still lack a clear understanding of the relative contributions of early visual experience and spontaneous prenatal retinal waves on the establishment of cortical networks. We compared two mouse models of early blindness, neonatal enucleation and congenital anophthalmia, across two genetic strains (C57Bl/6 J and ZRDBA) using mesoscopic calcium imaging of spontaneous activity and graph-theoretical analysis. Concomitantly, the functional network organization was redirected toward medial higher-order visual areas, the associative retrosplenial cortex, and somatosensory regions, while the primary and lateral visual cortices exhibited reduced influence and integration within the modular architecture. Notably, ZRDBA groups showed limited global changes to their cortical network. However, anophthalmic ZRDBA mice, lacking prenatal retinal waves, exhibited connectivity patterns more akin to enucleated C57Bl/6 J than to their enucleated littermates, suggesting a potential contribution of spontaneous prenatal retinal activity. These findings support a connectivity-constrained, experience-dependent model in which preexisting structural pathways guide diffuse, resilient reorganization following sensory loss.
PMID:
42330321
Bibliographic data and abstract were imported from PubMed on 23 Jun 2026.
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