Abstract
The function of the cerebral cortex essentially depends on the ability to form functional assemblies across different cortical areas serving different functions. Here we investigated how developmental hearing experience affects functional and effective interareal connectivity in the auditory cortex in an animal model with years-long and complete auditory deprivation (deafness) from birth, the congenitally deaf cat (CDC). Using intracortical multielectrode arrays, neuronal activity of adult hearing controls and CDCs was registered in the primary auditory cortex and the secondary posterior auditory field (PAF). Ongoing activity as well as responses to acoustic stimulation (in adult hearing controls) and electric stimulation applied via cochlear implants (in adult hearing controls and CDCs) were analyzed. As functional connectivity measures pairwise phase consistency and Granger causality were used. While the number of coupled sites was nearly identical between controls and CDCs, a reduced coupling strength between the primary and the higher order field was found in CDCs under auditory stimulation. Such stimulus-related decoupling was particularly pronounced in the alpha band and in top–down direction. Ongoing connectivity did not show such a decoupling. These findings suggest that developmental experience is essential for functional interareal interactions during sensory processing. The outcomes demonstrate that corticocortical couplings, particularly top-down connectivity, are compromised following congenital sensory deprivation.
Highlights
The auditory cortex is composed of a number of cortical areas with different functional roles (Malhotra et al, 2004; Winer and Lee, 2007)
The results demonstrate that top–down connectivity is substantially involved in the reduced effective connectivity observed in congenitally deaf cat (CDC)
The present study directly demonstrates reduced functional and effective stimulus-related connectivity following congenital deafness that is specific to the late processing window (>200 ms post stimulus)
Summary
The auditory cortex is composed of a number of cortical areas with different functional roles (Malhotra et al, 2004; Winer and Lee, 2007). Limited information exists on how these areas interact during such processes (Valentine and Eggermont, 2001), and it remains unclear how this interaction develops after birth. While it Interareal Couplings in Congenital Deafness has been demonstrated that developmental hearing experience shapes the functional properties of individual brain areas (e.g., Klinke et al, 1999; Chang and Merzenich, 2003; Fallon et al, 2009), the role of experience for integration of cortical areas into a functionally unified auditory cortex is unclear. Some cortical areas undergo a cross-modal reorganization (Rauschecker, 1995)
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