Spontaneous neural activity within visual cortex is synchronized at varying spatial scales, from the cytoarchitecural level of individual neurons to the coarse scale of whole regions. The neural basis of this synchronicity remains ambiguous. In this thesis, we focus on the role visual experience plays in organizing the spontaneous activity within the visual system. We start in Chapter 2 by creating a means by which to analyze homologous patches of cortex between sighted and blind individuals, as lack of vision precludes the use of traditional stimulus-driven mapping techniques. We find that anatomy alone could indeed predict the retinotopic organization of an individual\u27s striate cortex with an accuracy equivalent to the length of a typi...
Neurological findings suggest that the human striate cortex (V1) is an indispensable component of a ...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
This dissertation features my Ph.D work, under the supervision of Dr. Michael Crair, on spontaneous ...
Spontaneous neural activity within visual cortex is synchronized at varying spatial scales, from the...
Spontaneous neural activity within visual cortex is synchronized at varying spatial scales, from the...
It is commonly thought that neural activity in the visual cortex reflects retinal input. Recent stud...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...
AbstractIt is commonly thought that neural activity in the visual cortex reflects retinal input. Rec...
Visual cortex organization is highly consistent across individuals, despite being driven by both inn...
*These authors contributed equally to this work. Is visual input during critical periods of developm...
Spontaneous activity drives the establishment of appropriate connectivity in different circuits duri...
Spontaneous activity among visually responsive neurons is often considered to consist of random neur...
The sensory cortical neurons of mammals respond selectively to particular stimulus features to obtai...
While viewing certain stimuli, perception changes spontaneously in the face of constant input. For e...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Neurological findings suggest that the human striate cortex (V1) is an indispensable component of a ...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
This dissertation features my Ph.D work, under the supervision of Dr. Michael Crair, on spontaneous ...
Spontaneous neural activity within visual cortex is synchronized at varying spatial scales, from the...
Spontaneous neural activity within visual cortex is synchronized at varying spatial scales, from the...
It is commonly thought that neural activity in the visual cortex reflects retinal input. Recent stud...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...
AbstractIt is commonly thought that neural activity in the visual cortex reflects retinal input. Rec...
Visual cortex organization is highly consistent across individuals, despite being driven by both inn...
*These authors contributed equally to this work. Is visual input during critical periods of developm...
Spontaneous activity drives the establishment of appropriate connectivity in different circuits duri...
Spontaneous activity among visually responsive neurons is often considered to consist of random neur...
The sensory cortical neurons of mammals respond selectively to particular stimulus features to obtai...
While viewing certain stimuli, perception changes spontaneously in the face of constant input. For e...
Spontaneous network activity constitutes a central theme during the development of neuronal circuitr...
Neurological findings suggest that the human striate cortex (V1) is an indispensable component of a ...
Based on recent experimental results on the connectivity and plasticity of the visual cortex, a new ...
This dissertation features my Ph.D work, under the supervision of Dr. Michael Crair, on spontaneous ...