In a gap paradigm, healthy adult subjects performed visually triggered saccades to peripheral targets either with the fixation stimulus remaining on (overlap trials) or going off before target onset (gap trials). All subjects showed faster reaction times in the gap trials (the gap effect). High density scalp event-related potentials were recorded time-locked to both the target stimuli and the eye movement onset. We observed three neural correlates of the gap effect: (i) a prefrontal positivity that precedes the target presentation which may reflect specific preparatory processes, (ii) an enhancement of the early cortical visual responses (P1) to the peripheral target in the gap trials, and (iii) a prolongation of parietal activity in the ov...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
To compare the cortical dynamics of different oculomotor tasks, EEG and eye movements were recorded ...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...
AbstractThe gap effect refers to a reduction in the latency of saccades to peripherally appearing ta...
AbstractWe examined the effect of gap-overlap stimuli on the distribution of latencies for pure sacc...
To examine the neural correlates of contextually differing control mechanisms in saccade initiation,...
the gap task, Wxation point switches oV and target appears after a gap period; in the overlap task, ...
The present study investigated reaction time (RT) and event-related potential (ERP) differences betw...
Saccade initiation is facilitated when there is no physical stimulus at the start position of the sa...
AbstractThe saccadic “gap effect” refers to a phenomenon whereby saccadic reaction times (SRTs) are ...
AbstractThe systematic variations of regular saccadic reaction times induced in gap/overlap paradigm...
To compare the cortical dynamics of different oculomotor tasks, EEG and eye movements were recorded ...
I. The reduction in saccadic reaction time associated with the introduction of a period of darkness ...
We move our eyes to explore the world, but visual areas determining where to look next (action) are ...
Previous research with young adults has shown that the latency to initiate a saccadic eye movement i...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
To compare the cortical dynamics of different oculomotor tasks, EEG and eye movements were recorded ...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...
AbstractThe gap effect refers to a reduction in the latency of saccades to peripherally appearing ta...
AbstractWe examined the effect of gap-overlap stimuli on the distribution of latencies for pure sacc...
To examine the neural correlates of contextually differing control mechanisms in saccade initiation,...
the gap task, Wxation point switches oV and target appears after a gap period; in the overlap task, ...
The present study investigated reaction time (RT) and event-related potential (ERP) differences betw...
Saccade initiation is facilitated when there is no physical stimulus at the start position of the sa...
AbstractThe saccadic “gap effect” refers to a phenomenon whereby saccadic reaction times (SRTs) are ...
AbstractThe systematic variations of regular saccadic reaction times induced in gap/overlap paradigm...
To compare the cortical dynamics of different oculomotor tasks, EEG and eye movements were recorded ...
I. The reduction in saccadic reaction time associated with the introduction of a period of darkness ...
We move our eyes to explore the world, but visual areas determining where to look next (action) are ...
Previous research with young adults has shown that the latency to initiate a saccadic eye movement i...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
To compare the cortical dynamics of different oculomotor tasks, EEG and eye movements were recorded ...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...