Abstract: The stop-signal task (SST) and anti-saccade tasks are both widely used to explore cognitive inhibitory control. Our previous work on a manual SST showed that subjects ’ readiness to respond to the go signal and the extent to which subjects monitor their errors need to be considered in order to attribute impaired performance to deficits in response inhi-bition. Here we examine whether these same task-related variables similarly influence oculomotor SST and anti-saccade performance. Thirty-six and sixty healthy, adult subjects participated in an oculomotor SST and anti-saccade task, respec-tively, in which the fore-period (FP) of imperative stimulus varied randomly from trial to trial. We computed a FP effect to index response readi...
Summary. Four subjects all made large numbers of Express accades in the normal gap task were instruc...
Response inhibition is the ability to override a planned or an already initiated response. It is the...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...
Background and Aims: Adaptive behavior depends on the ability to voluntarily suppress context-inappr...
The present study tested the hypothesis that, unlike prosaccades, antisaccades require controlled pr...
AbstractIn a stop signal paradigm to investigate the control of human saccades subjects were instruc...
AbstractWe used a countermanding paradigm to investigate the relationship between conflicting cues f...
As the effects of saccade induced cognition enhancement (SICE) have been found in studies investigat...
Circadian rhythms and restricted sleep length affect cognitive functions and, consequently, the perf...
Circadian rhythms and restricted sleep length affect cognitive functions and, consequently, the perf...
This study used a classic exogenous cueing task in which an abrupt onset cue indicated the target lo...
The saccadic eye movement system provides researchers with a powerful tool with which to explore the...
Reflex suppression in the anti-saccade task is dependent on prestim- trials yet fail on others? ulus...
Preparation provided by visual location cues is known to speed up behavior. However, the role of con...
The stop signal task (SST) is a popular paradigm for assessing response inhibition, namely the abili...
Summary. Four subjects all made large numbers of Express accades in the normal gap task were instruc...
Response inhibition is the ability to override a planned or an already initiated response. It is the...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...
Background and Aims: Adaptive behavior depends on the ability to voluntarily suppress context-inappr...
The present study tested the hypothesis that, unlike prosaccades, antisaccades require controlled pr...
AbstractIn a stop signal paradigm to investigate the control of human saccades subjects were instruc...
AbstractWe used a countermanding paradigm to investigate the relationship between conflicting cues f...
As the effects of saccade induced cognition enhancement (SICE) have been found in studies investigat...
Circadian rhythms and restricted sleep length affect cognitive functions and, consequently, the perf...
Circadian rhythms and restricted sleep length affect cognitive functions and, consequently, the perf...
This study used a classic exogenous cueing task in which an abrupt onset cue indicated the target lo...
The saccadic eye movement system provides researchers with a powerful tool with which to explore the...
Reflex suppression in the anti-saccade task is dependent on prestim- trials yet fail on others? ulus...
Preparation provided by visual location cues is known to speed up behavior. However, the role of con...
The stop signal task (SST) is a popular paradigm for assessing response inhibition, namely the abili...
Summary. Four subjects all made large numbers of Express accades in the normal gap task were instruc...
Response inhibition is the ability to override a planned or an already initiated response. It is the...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...