Add to ORKGIn the cat, the auditory field of the anterior ectosylvian sulcus (FAES) is sensitive to auditory cues and its deactivation leads to orienting deficits toward acoustic, but not visual, stimuli. However, in early deaf cats, FAES activity shifts to the visual modality and its deactivation blocks orienting toward visual stimuli. Thus, as in other auditory cortices, hearing loss leads to cross-modal plasticity in the FAES. However, the synaptic basis for cross-modal plasticity is unknown. Therefore, the present study examined the effect of early deafness on the density, distribution, and size of dendritic spines in the FAES. Young cats were ototoxically deafened and raised until adulthood when they (and hearing controls) were euthanized, the co...
When the brain is deprived of input from one sensory modality, it often compensates with supranormal...
Although much is known about the cerebral neural plasticity that occurs after deafness, it is unclea...
It has been well established that following sensory loss, cortical areas that would normally be invo...
Early hearing loss leads to crossmodal plasticity in regions of the cerebrum that are dominated by a...
Neuroplasticity has been researched in many different ways, from the growing neonatal brain to neura...
Congenital sensory deprivation can lead to reorganization of the deprived cortical regions by anothe...
<div><p>Psychophysics and brain imaging studies in deaf patients have revealed a functional crossmod...
International audiencePsychophysics and brain imaging studies in deaf patients have revealed a funct...
Following sensory deprivation, primary somatosensory and visual cortices undergo crossmodal plastici...
Following sensory loss, compensatory crossmodal reorganization occurs such that the remaining modali...
Deafness affects approximately 40 million people in the United States. However, little is known abo...
Numerous investigations of cortical crossmodal plasticity, most often in congenital or early-deaf su...
Following the loss of a sensory modality, such as deafness or blindness, crossmodal plasticity is co...
Following sensory deprivation such as deafness, compensatory plasticity underlies the reorganization...
Following early-onset deafness, studies have demonstrated crossmodal plasticity, throughout “deaf” a...
When the brain is deprived of input from one sensory modality, it often compensates with supranormal...
Although much is known about the cerebral neural plasticity that occurs after deafness, it is unclea...
It has been well established that following sensory loss, cortical areas that would normally be invo...
Early hearing loss leads to crossmodal plasticity in regions of the cerebrum that are dominated by a...
Neuroplasticity has been researched in many different ways, from the growing neonatal brain to neura...
Congenital sensory deprivation can lead to reorganization of the deprived cortical regions by anothe...
<div><p>Psychophysics and brain imaging studies in deaf patients have revealed a functional crossmod...
International audiencePsychophysics and brain imaging studies in deaf patients have revealed a funct...
Following sensory deprivation, primary somatosensory and visual cortices undergo crossmodal plastici...
Following sensory loss, compensatory crossmodal reorganization occurs such that the remaining modali...
Deafness affects approximately 40 million people in the United States. However, little is known abo...
Numerous investigations of cortical crossmodal plasticity, most often in congenital or early-deaf su...
Following the loss of a sensory modality, such as deafness or blindness, crossmodal plasticity is co...
Following sensory deprivation such as deafness, compensatory plasticity underlies the reorganization...
Following early-onset deafness, studies have demonstrated crossmodal plasticity, throughout “deaf” a...
When the brain is deprived of input from one sensory modality, it often compensates with supranormal...
Although much is known about the cerebral neural plasticity that occurs after deafness, it is unclea...
It has been well established that following sensory loss, cortical areas that would normally be invo...