Visual experience plays an important role in the development of the visual cortex; however, recent functional imaging studies have shown that the functional organization is preserved in several higher-tier visual areas in congenitally blind subjects, indicating that maturation of visual areas depend unequally on visual experience. In this study, we aim to validate this hypothesis using a multimodality MRI approach. We found increased cortical thickness in the congenitally blind was present in the early visual areas and absent in the higher-tier ones, suggesting that the structural development of the visual cortex depends hierarchically on visual experience. In congenitally blind subjects, the decreased resting-state functional connectivity ...
Since the early days, how we represent the world around us has been a matter of philosophical specul...
Early onset blindness allows one to investigate how the human brain adapts to sensory experience in ...
Topographically organised responses to visual and tactile stimulation are aligned in the ventral int...
Is visual input during critical periods of development crucial for the emergence of the fundamental ...
Visual cortex organization is highly consistent across individuals, despite being driven by both inn...
Classical animal visual deprivation studies and human neuroimaging studies have shown that visual ex...
Blindness primarily induces structural alteration in the primary visual cortex (V1). Some studies ha...
Contrasting the impact of congenital versus late-onset acquired blindness provides a unique model to...
Abstract: In early blindness, the primary visual area (PVA) loses the ability to process visual info...
Abstract While most of the research in blind individuals classically has focused on the compensatory...
AbstractBlindness is a unique model for understanding the role of experience in the development of t...
To explore the morphological aspects of the functional reorganization of the blind's visual cortex, ...
Visual cortex functionality in the blind has been shown to shift away from sensory networks toward t...
Studying blindness with various onset ages may elucidate the ways that unimodal sensory deprivation ...
Early visual deprivation can lead to changes in the brain, which may be explained by either of two h...
Since the early days, how we represent the world around us has been a matter of philosophical specul...
Early onset blindness allows one to investigate how the human brain adapts to sensory experience in ...
Topographically organised responses to visual and tactile stimulation are aligned in the ventral int...
Is visual input during critical periods of development crucial for the emergence of the fundamental ...
Visual cortex organization is highly consistent across individuals, despite being driven by both inn...
Classical animal visual deprivation studies and human neuroimaging studies have shown that visual ex...
Blindness primarily induces structural alteration in the primary visual cortex (V1). Some studies ha...
Contrasting the impact of congenital versus late-onset acquired blindness provides a unique model to...
Abstract: In early blindness, the primary visual area (PVA) loses the ability to process visual info...
Abstract While most of the research in blind individuals classically has focused on the compensatory...
AbstractBlindness is a unique model for understanding the role of experience in the development of t...
To explore the morphological aspects of the functional reorganization of the blind's visual cortex, ...
Visual cortex functionality in the blind has been shown to shift away from sensory networks toward t...
Studying blindness with various onset ages may elucidate the ways that unimodal sensory deprivation ...
Early visual deprivation can lead to changes in the brain, which may be explained by either of two h...
Since the early days, how we represent the world around us has been a matter of philosophical specul...
Early onset blindness allows one to investigate how the human brain adapts to sensory experience in ...
Topographically organised responses to visual and tactile stimulation are aligned in the ventral int...