A "Gap Effect" on Stop Signal Reaction Times in a Human Saccadic Countermanding Task
1 Canadian Institute of Health Research Group in Action and Perception, 2 Graduate Program in Neuroscience, 3 Departments of Physiology and Pharmacology and 4 Psychology, University of Western Ontario, London, Ontario, Canada Submitted 7 August 2008; accepted in final form 12 November 2008 The "...
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| Veröffentlicht in: | Journal of neurophysiology 2009-02, Vol.101 (2), p.580-590 |
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| container_title | Journal of neurophysiology |
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| creator | Stevenson, Scott A Elsley, James K Corneil, Brian D |
| description | 1 Canadian Institute of Health Research Group in Action and Perception, 2 Graduate Program in Neuroscience, 3 Departments of Physiology and Pharmacology and 4 Psychology, University of Western Ontario, London, Ontario, Canada
Submitted 7 August 2008;
accepted in final form 12 November 2008
The "gap effect" describes a phenomenon whereby saccadic reaction times are expedited by the removal of a visible fixation point prior to target presentation. Here we investigated whether processes controlling saccade cancellation are also subjected to a gap effect. Human subjects performed a countermanding experiment that required them to try to cancel an impending saccade in the presence of an imperative visual stop signal, across different fixation conditions. We found that saccadic cancellation latencies, estimated via derivation of the stop signal reaction time (SSRT), were 40 ms shorter on trials with a 200-ms gap between fixation point removal and target presentation compared with when the fixation point remained illuminated. Follow-up experiments confirmed that the reduction in SSRTs were primarily due to removal of a foveal fixation point (as opposed to a generalized warning effect) and persisted with an auditory stop signal that controlled for potential differences in stop signal saliency across different fixation conditions. Saccadic RTs exhibited a gap effect in all experiments with reductions in RTs being due to both removal of a foveal fixation point and a generalized warning effect. Overall, our results demonstrate that processes controlling saccade cancellation can be expedited by a 200-ms gap. The simultaneous priming of both saccade cancellation and generation is of particular interest considering the mutually antagonistic relationship between the saccade fixation and generation networks in the oculomotor system.
Address for reprint requests and other correspondence: B. D. Corneil, Centre for Brain and Mind, Robarts Research Institute, London, Ontario N6A 5K8, Canada (E-mail: bcorneil{at}uwo.ca ) |
| doi_str_mv | 10.1152/jn.90891.2008 |
| format | Article |
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Submitted 7 August 2008;
accepted in final form 12 November 2008
The "gap effect" describes a phenomenon whereby saccadic reaction times are expedited by the removal of a visible fixation point prior to target presentation. Here we investigated whether processes controlling saccade cancellation are also subjected to a gap effect. Human subjects performed a countermanding experiment that required them to try to cancel an impending saccade in the presence of an imperative visual stop signal, across different fixation conditions. We found that saccadic cancellation latencies, estimated via derivation of the stop signal reaction time (SSRT), were 40 ms shorter on trials with a 200-ms gap between fixation point removal and target presentation compared with when the fixation point remained illuminated. Follow-up experiments confirmed that the reduction in SSRTs were primarily due to removal of a foveal fixation point (as opposed to a generalized warning effect) and persisted with an auditory stop signal that controlled for potential differences in stop signal saliency across different fixation conditions. Saccadic RTs exhibited a gap effect in all experiments with reductions in RTs being due to both removal of a foveal fixation point and a generalized warning effect. Overall, our results demonstrate that processes controlling saccade cancellation can be expedited by a 200-ms gap. The simultaneous priming of both saccade cancellation and generation is of particular interest considering the mutually antagonistic relationship between the saccade fixation and generation networks in the oculomotor system.
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Submitted 7 August 2008;
accepted in final form 12 November 2008
The "gap effect" describes a phenomenon whereby saccadic reaction times are expedited by the removal of a visible fixation point prior to target presentation. Here we investigated whether processes controlling saccade cancellation are also subjected to a gap effect. Human subjects performed a countermanding experiment that required them to try to cancel an impending saccade in the presence of an imperative visual stop signal, across different fixation conditions. We found that saccadic cancellation latencies, estimated via derivation of the stop signal reaction time (SSRT), were 40 ms shorter on trials with a 200-ms gap between fixation point removal and target presentation compared with when the fixation point remained illuminated. Follow-up experiments confirmed that the reduction in SSRTs were primarily due to removal of a foveal fixation point (as opposed to a generalized warning effect) and persisted with an auditory stop signal that controlled for potential differences in stop signal saliency across different fixation conditions. Saccadic RTs exhibited a gap effect in all experiments with reductions in RTs being due to both removal of a foveal fixation point and a generalized warning effect. Overall, our results demonstrate that processes controlling saccade cancellation can be expedited by a 200-ms gap. The simultaneous priming of both saccade cancellation and generation is of particular interest considering the mutually antagonistic relationship between the saccade fixation and generation networks in the oculomotor system.
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Submitted 7 August 2008;
accepted in final form 12 November 2008
The "gap effect" describes a phenomenon whereby saccadic reaction times are expedited by the removal of a visible fixation point prior to target presentation. Here we investigated whether processes controlling saccade cancellation are also subjected to a gap effect. Human subjects performed a countermanding experiment that required them to try to cancel an impending saccade in the presence of an imperative visual stop signal, across different fixation conditions. We found that saccadic cancellation latencies, estimated via derivation of the stop signal reaction time (SSRT), were 40 ms shorter on trials with a 200-ms gap between fixation point removal and target presentation compared with when the fixation point remained illuminated. Follow-up experiments confirmed that the reduction in SSRTs were primarily due to removal of a foveal fixation point (as opposed to a generalized warning effect) and persisted with an auditory stop signal that controlled for potential differences in stop signal saliency across different fixation conditions. Saccadic RTs exhibited a gap effect in all experiments with reductions in RTs being due to both removal of a foveal fixation point and a generalized warning effect. Overall, our results demonstrate that processes controlling saccade cancellation can be expedited by a 200-ms gap. The simultaneous priming of both saccade cancellation and generation is of particular interest considering the mutually antagonistic relationship between the saccade fixation and generation networks in the oculomotor system.
Address for reprint requests and other correspondence: B. D. Corneil, Centre for Brain and Mind, Robarts Research Institute, London, Ontario N6A 5K8, Canada (E-mail: bcorneil{at}uwo.ca )</abstract><cop>United States</cop><pub>Am Phys Soc</pub><pmid>19019975</pmid><doi>10.1152/jn.90891.2008</doi><tpages>11</tpages></addata></record> |
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| source | MEDLINE; American Physiological Society; EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection |
| subjects | Adult Attention - physiology Electrooculography - methods Female Humans Inhibition (Psychology) Male Photic Stimulation Psychomotor Performance - physiology Reaction Time - physiology Saccades - physiology Signal Detection, Psychological - physiology Time Factors Young Adult |
| title | A "Gap Effect" on Stop Signal Reaction Times in a Human Saccadic Countermanding Task |
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