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Literature DB >> 12830349

Target similarity affects saccade curvature away from irrelevant onsets.

Abstract

Saccade curvature away from visual distractors is a measure of the salience of these distractors for the oculomotor system. Three experiments are reported in which the integration of luminance onset signals and target similarity signals is examined, using a saccade curvature paradigm. Observers made saccades to a no-onset colour target in one of two positions on the vertical meridian. On most trials, an abrupt onset distractor that was either similar or dissimilar to the target appeared left or right on the horizontal midline. Saccades curved away from the irrelevant onsets; however, the amount of curvature was modulated by target similarity only when the onset appeared before the target (experiment 2) or when saccade initiation was delayed (experiment 3). These results suggest that the initial response to the onset is stimulus-driven and mediated by its transient component. Over time, the response is integrated with and augmented by top-down inputs. Visual and non-visual signals converge onto a common motor map to determine an item's salience.

Mesh：

Year: 2003 PMID： 12830349 DOI： 10.1007/s00221-003-1520-7

Source DB: PubMed Journal: Exp Brain Res ISSN： 0014-4819 Impact factor: 1.972

34 in total

Target similarity affects saccade curvature away from irrelevant onsets.

1. Influence of attentional capture on oculomotor control.

2. Reaching affects saccade trajectories.

3. Multisensory interactions in saccade target selection: curved saccade trajectories.

4. Neural discharge in the superior colliculus during target search paradigms.

5. The magnitude of the fixation offset effect with endogenously and exogenously controlled saccades.

6. Modulation of neuronal activity in superior colliculus by changes in target probability.

7. Signal timing across the macaque visual system.

8. Saccade target selection during visual search.

9. Population coding of saccadic eye movements by neurons in the superior colliculus.

10. Effects of components of displacement-step stimuli upon latency for saccadic eye movement.

1. Distractor modulation of saccade trajectories: spatial separation and symmetry effects.

2. Looking away: distractor influences on saccadic trajectory and endpoint in prosaccade and antisaccade tasks.

3. Our eyes deviate away from a location where a distractor is expected to appear.

4. Preparation and execution of saccades: the problem of limited capacity of computational resources.

5. Incomplete suppression of distractor-related activity in the frontal eye field results in curved saccades.

6. Distractor effects on saccade trajectories: a comparison of prosaccades, antisaccades, and memory-guided saccades.

7. Involuntary inhibition of movement initiation alters oculomotor competition resolution.

8. Higher order, multifeatural object encoding by the oculomotor system.

9. The mechanism underlying inhibition of saccadic return.

10. Capture of the eyes by relevant and irrelevant onsets.