The pulvinar is a higher-order thalamic relay and a central component of the extrageniculate visual pathway, with input from the superior colliculus and visual cortex and output to all of visual cortex. Rodent pulvinar, more commonly called the lateral posterior nucleus (LP), consists of three highly-conserved subdivisions, and offers the advantage of simplicity in its study compared to more subdivided primate pulvinar. Little is known about receptive field properties of LP, let alone whether functional differences exist between different LP subdivisions, making it difficult to understand what visual information is relayed and what kinds of computations the pulvinar might support. Here, we characterized single-cell response properties in tw...
The rodent homolog of the primate pulvinar, the lateral posterior (LP) thalamus, is extensively inte...
This dissertation attempts to understand the organization of some of the nuclei which constitute the...
Recent studies have revealed a surprising degree of functional specialization in rodent visual corte...
The extrageniculate visual pathway, which carries visual information from the retina through the sup...
The primary visual cortex (V1) receives its driving input from the eyes via the lateral geniculate n...
Recent studies have revealed a surprising degree of functional specialization in rodent visual corte...
Higher-order visual thalamus communicates broadly and bi-directionally with primary and extrastriate...
The pulvinar region of the thalamus has repeatedly been linked with the control of attention. Howeve...
The study of the comparative anatomy of mammalian brains reveals few developments as striking as the...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
[Abstract] The pulvinar nuclei of the thalamus are proportionately larger in higher mammals, particu...
The pulvinar is the largest nucleus in the primate thalamus and contains extensive, reciprocal conne...
SummaryBackgroundVisual information conveyed through the extrageniculate visual pathway, which runs ...
Wepreviously established a functional pathway extending from the superficial layers of the superior ...
The rodent homolog of the primate pulvinar, the lateral posterior (LP) thalamus, is extensively inte...
This dissertation attempts to understand the organization of some of the nuclei which constitute the...
Recent studies have revealed a surprising degree of functional specialization in rodent visual corte...
The extrageniculate visual pathway, which carries visual information from the retina through the sup...
The primary visual cortex (V1) receives its driving input from the eyes via the lateral geniculate n...
Recent studies have revealed a surprising degree of functional specialization in rodent visual corte...
Higher-order visual thalamus communicates broadly and bi-directionally with primary and extrastriate...
The pulvinar region of the thalamus has repeatedly been linked with the control of attention. Howeve...
The study of the comparative anatomy of mammalian brains reveals few developments as striking as the...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
[Abstract] The pulvinar nuclei of the thalamus are proportionately larger in higher mammals, particu...
The pulvinar is the largest nucleus in the primate thalamus and contains extensive, reciprocal conne...
SummaryBackgroundVisual information conveyed through the extrageniculate visual pathway, which runs ...
Wepreviously established a functional pathway extending from the superficial layers of the superior ...
The rodent homolog of the primate pulvinar, the lateral posterior (LP) thalamus, is extensively inte...
This dissertation attempts to understand the organization of some of the nuclei which constitute the...
Recent studies have revealed a surprising degree of functional specialization in rodent visual corte...