<p>(A) Cortical response to visual stimulation at 48 ms after stimulus onset. Responses in the V1, LV, and RV areas were readily recognizable, and the three areas were well separated from each other. A circular ROI with a diameter of 1 mm was set in each of the subfields to include the response epicenter and to cover as many responsive pixels as possible. (B) Response to auditory stimulation at 28 ms after stimulus onset; recorded in the same cortical field as in (A). Response in the dorsocaudal belt portion of the auditory cortex (DCB) is readily recognizable. An ROI was set on the DCB similar to the visual fields. (C) Summary illustration of ROIs in the recording field. Note the partial overlap between DCB and LV. (D) Responses to visual ...
Visual evoked potentials have been traditionally triggered with flash or reversing checkerboard stim...
Manyprevious studies have demonstrated that changes in selective attention can alter the responsemag...
SummaryThe extent to which areas in the visual cerebral cortex differ in their ability to support pe...
<p>(A) The averaged responses (average in the ROI of each animal followed by average among animals) ...
SummaryHow do neuronal populations represent concurrent stimuli? We measured population responses in...
<p><b>a.</b> The grey square represents the simulated (2°×2°) patch of visual field, and the <i>plus...
textThe overall goals of this dissertation were 1) to understand the role that neurons in primate pr...
We report the results of our experimental and theoretical investigations of the neural response dyna...
A fundamental problem of neuroscience is being able to understand the input-output relationship of e...
At any given moment, our brain is processing a large amount of sensory information, yet we are only ...
<p>Latencies of the responses to probes presented in the RF, MID and FF positions across the two mon...
Summary: Many factors modulate the state of cortical activity, but the importance of cortical state ...
<p>Example of dot-raster plots (A & B) and post-stimulus time histograms (C & D) for an individual u...
Extracellular neurophysiological recordings are typically separated in two frequency bands. Low freq...
BACKGROUND: Clarifying the enigmatic relationship between stimulus property, neural response and the...
Visual evoked potentials have been traditionally triggered with flash or reversing checkerboard stim...
Manyprevious studies have demonstrated that changes in selective attention can alter the responsemag...
SummaryThe extent to which areas in the visual cerebral cortex differ in their ability to support pe...
<p>(A) The averaged responses (average in the ROI of each animal followed by average among animals) ...
SummaryHow do neuronal populations represent concurrent stimuli? We measured population responses in...
<p><b>a.</b> The grey square represents the simulated (2°×2°) patch of visual field, and the <i>plus...
textThe overall goals of this dissertation were 1) to understand the role that neurons in primate pr...
We report the results of our experimental and theoretical investigations of the neural response dyna...
A fundamental problem of neuroscience is being able to understand the input-output relationship of e...
At any given moment, our brain is processing a large amount of sensory information, yet we are only ...
<p>Latencies of the responses to probes presented in the RF, MID and FF positions across the two mon...
Summary: Many factors modulate the state of cortical activity, but the importance of cortical state ...
<p>Example of dot-raster plots (A & B) and post-stimulus time histograms (C & D) for an individual u...
Extracellular neurophysiological recordings are typically separated in two frequency bands. Low freq...
BACKGROUND: Clarifying the enigmatic relationship between stimulus property, neural response and the...
Visual evoked potentials have been traditionally triggered with flash or reversing checkerboard stim...
Manyprevious studies have demonstrated that changes in selective attention can alter the responsemag...
SummaryThe extent to which areas in the visual cerebral cortex differ in their ability to support pe...