Sensory processing involves information flow between neocortical areas, assumed to rely on direct intracortical projections. However, cortical areas may also communicate indirectly via higher-order nuclei in the thalamus, such as the pulvinar or lateral posterior nucleus (LP) in the visual system of rodents. The fine-scale organization and function of these cortico-thalamo-cortical pathways remains unclear. We find that responses of mouse LP neurons projecting to higher visual areas likely derive from feedforward input from primary visual cortex (V1) combined with information from many cortical and subcortical areas, including superior colliculus. Signals from LP projections to different higher visual areas are tuned to specific features of...
SummaryBackgroundVisual information conveyed through the extrageniculate visual pathway, which runs ...
All peripheral sensory information is represented in the thalamus before being transmitted to the co...
The corticothalamic (CT) pathways emanate from either Layer 5 (L5) or 6 (L6) of the neocortex and la...
Higher-order thalamic nuclei contribute to sensory processing via projections to primary and higher ...
Primary sensory cortical areas receive information through multiple thalamic channels. In the rodent...
The cerebral cortex and the thalamus are in constant communication with one another, and their inter...
Higher-order visual thalamus communicates broadly and bi-directionally with primary and extrastriate...
The rodent homolog of the primate pulvinar, the lateral posterior (LP) thalamus, is extensively inte...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
The thalamus was long considered a passive relay of sensory information with little or no active rol...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
SummaryIn the mammalian brain, thalamic signals reach the cortex via two major routes: primary and h...
The function of the higher-order sensory thalamus remains unclear. Here, the posterior medial (POm) ...
All peripheral sensory information is represented in the thalamus before being transmitted to the co...
AbstractAll neocortical areas receive thalamic inputs. Some thalamocortical pathways relay informati...
SummaryBackgroundVisual information conveyed through the extrageniculate visual pathway, which runs ...
All peripheral sensory information is represented in the thalamus before being transmitted to the co...
The corticothalamic (CT) pathways emanate from either Layer 5 (L5) or 6 (L6) of the neocortex and la...
Higher-order thalamic nuclei contribute to sensory processing via projections to primary and higher ...
Primary sensory cortical areas receive information through multiple thalamic channels. In the rodent...
The cerebral cortex and the thalamus are in constant communication with one another, and their inter...
Higher-order visual thalamus communicates broadly and bi-directionally with primary and extrastriate...
The rodent homolog of the primate pulvinar, the lateral posterior (LP) thalamus, is extensively inte...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
The thalamus was long considered a passive relay of sensory information with little or no active rol...
Sensory perception depends on the context in which a stimulus occurs. Prevailing models emphasize co...
SummaryIn the mammalian brain, thalamic signals reach the cortex via two major routes: primary and h...
The function of the higher-order sensory thalamus remains unclear. Here, the posterior medial (POm) ...
All peripheral sensory information is represented in the thalamus before being transmitted to the co...
AbstractAll neocortical areas receive thalamic inputs. Some thalamocortical pathways relay informati...
SummaryBackgroundVisual information conveyed through the extrageniculate visual pathway, which runs ...
All peripheral sensory information is represented in the thalamus before being transmitted to the co...
The corticothalamic (CT) pathways emanate from either Layer 5 (L5) or 6 (L6) of the neocortex and la...