Topics
auditory cortexAnatomical structure
dendritic spineDisease
Neuroplasticity has been researched in many different ways, from the growing neonatal brain to neural responses to trauma and injury. According to recent research, neuroplasticity is also prevalent in the ability of the brain to repurpose areas that are not of use, like in the case of a loss of a sense. Specifically, behavioral studies have shown that deaf humans (Bavalier and Neville, 2002) and cats have increased visual ability, and that different areas of the auditory cortex enhance specific kinds of sight. One such behavioral test demonstrated that the dorsal zone (DZ) of the auditory cortex enhances sensitivity to visual motion through cross-modal plasticity (Lomber et. al., 2010). Current research seeks to examine the anatomical struc...
Recent neuroscientific research has focused on cortical plasticity, which refers to the ability of t...
After sensory loss, the deprived cortex can reorganize to process information from the remaining mod...
To investigate possible cross-modal reorganization of the primary auditory cortex (field A1) in cong...
In the cat, the auditory field of the anterior ectosylvian sulcus (FAES) is sensitive to auditory cu...
Psychophysics and brain imaging studies in deaf patients have revealed a functional crossmodal reorg...
International audiencePsychophysics and brain imaging studies in deaf patients have revealed a funct...
Congenital sensory deprivation can lead to reorganization of the deprived cortical regions by anothe...
Deafness affects approximately 40 million people in the United States. However, little is known abo...
When the brain is deprived of input from one sensory modality, it often compensates with supranormal...
Following sensory deprivation, primary somatosensory and visual cortices undergo crossmodal plastici...
Following sensory loss, compensatory crossmodal reorganization occurs such that the remaining modali...
Following sensory deprivation such as deafness, compensatory plasticity underlies the reorganization...
Although much is known about the cerebral neural plasticity that occurs after deafness, it is unclea...
In the absence of hearing, the brain must adapt and repurpose the former auditory cortex. In this st...
Early hearing loss leads to crossmodal plasticity in regions of the cerebrum that are dominated by a...
Recent neuroscientific research has focused on cortical plasticity, which refers to the ability of t...
After sensory loss, the deprived cortex can reorganize to process information from the remaining mod...
To investigate possible cross-modal reorganization of the primary auditory cortex (field A1) in cong...
In the cat, the auditory field of the anterior ectosylvian sulcus (FAES) is sensitive to auditory cu...
Psychophysics and brain imaging studies in deaf patients have revealed a functional crossmodal reorg...
International audiencePsychophysics and brain imaging studies in deaf patients have revealed a funct...
Congenital sensory deprivation can lead to reorganization of the deprived cortical regions by anothe...
Deafness affects approximately 40 million people in the United States. However, little is known abo...
When the brain is deprived of input from one sensory modality, it often compensates with supranormal...
Following sensory deprivation, primary somatosensory and visual cortices undergo crossmodal plastici...
Following sensory loss, compensatory crossmodal reorganization occurs such that the remaining modali...
Following sensory deprivation such as deafness, compensatory plasticity underlies the reorganization...
Although much is known about the cerebral neural plasticity that occurs after deafness, it is unclea...
In the absence of hearing, the brain must adapt and repurpose the former auditory cortex. In this st...
Early hearing loss leads to crossmodal plasticity in regions of the cerebrum that are dominated by a...
Recent neuroscientific research has focused on cortical plasticity, which refers to the ability of t...
After sensory loss, the deprived cortex can reorganize to process information from the remaining mod...
To investigate possible cross-modal reorganization of the primary auditory cortex (field A1) in cong...
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