Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which terminates in distinct cortical layers [ 1–3 ]. In sensory systems, feedforward processing transmits signals from the external world into the cortex, whereas feedback pathways signal the brain’s inference of the world [ 4–11 ]. However, the integration of feedforward, lateral, and feedback inputs within each cortical area impedes the investigation of feedback, and to date, no technique has isolated the feedback of visual scene information in distinct layers of healthy human cortex. We masked feedforward input to a region of V1 cortex and studied the remaining internal processing. Using high-resolution functional brain imaging (0.8 mm3) and mu...
Human behavior is dependent on the ability of neuronal circuits to predict the outside world. Neuron...
"As visual information travels along the cortical hierarchy, our brain builds representations of th...
Adapting to the environment statistics by reducing brain responses to repetitive sensory information...
SummaryNeuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
The majority of synaptic inputs to the primary visual cortex (V1) are non-feedforward, instead origi...
Neurons in the primary visual cortex (V1) receive sensory inputs that describe small, local regions ...
How does the brain form a useful representation of its external environment from the astoundingly co...
Visual processing in cortex relies on feedback projections contextualising feedforward information f...
Early visual cortical neurons receive highly selective feedforward input, which is amplified or disa...
Human visual surface perception has neural correlates in early visual cortex, but the role of feedba...
The cortex constitutes the largest area of the human brain. Yet we have only a basic understanding o...
AbstractThe cortex constitutes the largest area of the human brain. Yet we have only a basic underst...
Closing the structure-function divide is more challenging in the brain than in any other organ (Lich...
Human behavior is dependent on the ability of neuronal circuits to predict the outside world. Neuron...
"As visual information travels along the cortical hierarchy, our brain builds representations of th...
Adapting to the environment statistics by reducing brain responses to repetitive sensory information...
SummaryNeuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
Neuronal cortical circuitry comprises feedforward, lateral, and feedback projections, each of which ...
The majority of synaptic inputs to the primary visual cortex (V1) are non-feedforward, instead origi...
Neurons in the primary visual cortex (V1) receive sensory inputs that describe small, local regions ...
How does the brain form a useful representation of its external environment from the astoundingly co...
Visual processing in cortex relies on feedback projections contextualising feedforward information f...
Early visual cortical neurons receive highly selective feedforward input, which is amplified or disa...
Human visual surface perception has neural correlates in early visual cortex, but the role of feedba...
The cortex constitutes the largest area of the human brain. Yet we have only a basic understanding o...
AbstractThe cortex constitutes the largest area of the human brain. Yet we have only a basic underst...
Closing the structure-function divide is more challenging in the brain than in any other organ (Lich...
Human behavior is dependent on the ability of neuronal circuits to predict the outside world. Neuron...
"As visual information travels along the cortical hierarchy, our brain builds representations of th...
Adapting to the environment statistics by reducing brain responses to repetitive sensory information...