The lateral geniculate nucleus (LGN) is the primary thalamic nucleus that relays visual information from the retina to the primary visual cortex (V1) and has been extensively studied in non-human primates. A key feature of the LGN is the segregation of retinal inputs into different cellular layers characterized by their differential responses to red-green (RG) color (L/M opponent), blue-yellow (BY) color (S-cone opponent) and achromatic (Ach) contrast. In this study we use high-field functional magnetic resonance imaging (4 tesla, 3.6 × 3.6 × 3 mm3) to record simultaneously the responses of the human LGN and V1 to chromatic and Ach contrast to investigate the LGN responses to color, and how these are modified as information transfers betwee...
Our aim was to make a quantitative comparison of the response of the different visual cortical areas...
Functional magnetic resonance imaging (fMRI) has provided intriguing insights into the topography an...
SummaryPrimary visual cortex contains at least two distinct populations of color-selective cells: ne...
Color responses of the human lateral geniculate nucleus: selective amplification of S-cone signals b...
We use an fMRI adaptation paradigm to explore the selectivity of human responses in the lateral geni...
AbstractWe use an fMRI adaptation paradigm to explore the selectivity of human responses in the late...
We compared the responsiveness of the LGN and the early retinotopic cortical areas to stimulation of...
We studied neurons in the central visual field representation of the lateral geniculate nucleus (LGN...
Lateral geniculate nucleus is a small-sized structure located in thalamus and targeted by predominan...
Although the response of a neuron in the visual cortex generally grows nonlinearly with contrast, th...
The responses of neurons in lateral geniculate nucleus (LGN) exhibit powerful suppressive phenomena ...
The first stage of human color vision is the encoding of light by the long (L), medium (M), and shor...
Gamma oscillations (similar to 30-80 Hz) are a prominent signature of electro-physiological signals,...
We have used fMRI to measure responses to chromatic and achromatic contrast in retinotopically defin...
The sensitivity of the sensory systems to temporal changes of the environment constitutes one of the...
Our aim was to make a quantitative comparison of the response of the different visual cortical areas...
Functional magnetic resonance imaging (fMRI) has provided intriguing insights into the topography an...
SummaryPrimary visual cortex contains at least two distinct populations of color-selective cells: ne...
Color responses of the human lateral geniculate nucleus: selective amplification of S-cone signals b...
We use an fMRI adaptation paradigm to explore the selectivity of human responses in the lateral geni...
AbstractWe use an fMRI adaptation paradigm to explore the selectivity of human responses in the late...
We compared the responsiveness of the LGN and the early retinotopic cortical areas to stimulation of...
We studied neurons in the central visual field representation of the lateral geniculate nucleus (LGN...
Lateral geniculate nucleus is a small-sized structure located in thalamus and targeted by predominan...
Although the response of a neuron in the visual cortex generally grows nonlinearly with contrast, th...
The responses of neurons in lateral geniculate nucleus (LGN) exhibit powerful suppressive phenomena ...
The first stage of human color vision is the encoding of light by the long (L), medium (M), and shor...
Gamma oscillations (similar to 30-80 Hz) are a prominent signature of electro-physiological signals,...
We have used fMRI to measure responses to chromatic and achromatic contrast in retinotopically defin...
The sensitivity of the sensory systems to temporal changes of the environment constitutes one of the...
Our aim was to make a quantitative comparison of the response of the different visual cortical areas...
Functional magnetic resonance imaging (fMRI) has provided intriguing insights into the topography an...
SummaryPrimary visual cortex contains at least two distinct populations of color-selective cells: ne...