Antisaccade Cost Is Modulated by Contextual Experience of Location Probability

Liu, Chia Lun; Chiau, Hui Yan; Tseng, Philip; Hung, Daisy L.; Tzeng, Ovid J.L.; Muggleton, Neil G.; Juan, Chi Hung

doi:10.1152/jn.00815.2009

Cited by 32 publications

(44 citation statements)

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“…Kristjánsson et al (2001) found that shifting attention to a secondary task before saccade target onset can interfere with the reflexive prosaccade and consequently allow faster antisaccades. Liu et al (2010) found that spatial probability of saccade locations can also effectively modulate the antisaccade cost. Most important, Olk and Kingstone (2003) found that antisaccade cost can also be altered by changing the way pro-and antisaccade trials are organized.…”

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confidence: 98%

“…They found facilitation only in prosaccades to the high-probability location and no effect of probability on antisaccades. Their results suggest that the visual system's sensitivity to probability is not a simple location-and-response coupling, but a process that incorporates task (e.g., saccade type) and location information and other possible events that together provide specific probabilistic contexts (Liu et al 2010). In the present study, we tested whether the visual system can also be sensitive to "events" (e.g., trial type probability in current study) that are intangible but predictive.…”

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“…The effects of prior probabilistic information on saccadic performance have been well documented. For example, gaze is directed to specific locations faster when they represent higher likelihoods of target presence based on past experience (e.g., Carpenter and Williams 1995;Gmeindl et al 2005;Liu et al 2010;Miller 1988;Milstein and Dorris 2007; for recent reviews see Angelaki et al 2009;Summerfield and Egner 2009). Most importantly, this utilization of probabilistic information is not constrained at the simple stimulus-and-response level, because it can also be observed when the task requires visual analysis and response selection.…”

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confidence: 99%

“…Most importantly, this utilization of probabilistic information is not constrained at the simple stimulus-and-response level, because it can also be observed when the task requires visual analysis and response selection. Recently, Liu et al (2010) used a central cue to indicate to participants whether they should saccade to (prosaccade) or away from (antisaccade) an oddball stimulus. Of the four possible saccade locations, one location enjoyed higher probability of being selected than the other three locations, but only for prosaccades.…”

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Trial type probability modulates the cost of antisaccades

Chiau

Tseng

et al. 2011

Journal of Neurophysiology

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Chiau HY, Tseng P, Su JH, Tzeng OJ, Hung DL, Muggleton NG, Juan CH. Trial type probability modulates the cost of antisaccades. J Neurophysiol 106: 515-526, 2011. First published May 4, 2011 doi:10.1152/jn.00399.2010The antisaccade task, where eye movements are made away from a target, has been used to investigate the flexibility of cognitive control of behavior. Antisaccades usually have longer saccade latencies than prosaccades, the so-called antisaccade cost. Recent studies have shown that this antisaccade cost can be modulated by event probability. This may mean that the antisaccade cost can be reduced, or even reversed, if the probability of surrounding events favors the execution of antisaccades. The probabilities of prosaccades and antisaccades were systematically manipulated by changing the proportion of a certain type of trial in an interleaved pro/antisaccades task. We aimed to disentangle the intertwined relationship between trial type probabilities and the antisaccade cost with the ultimate goal of elucidating how probabilities of trial types modulate human flexible behaviors, as well as the characteristics of such modulation effects. To this end, we examined whether implicit trial type probability can influence saccade latencies and also manipulated the difficulty of cue discriminability to see how effects of trial type probability would change when the demand on visual perceptual analysis was high or low. A mixed-effects model was applied to the analysis to dissect the factors contributing to the modulation effects of trial type probabilities. Our results suggest that the trial type probability is one robust determinant of antisaccade cost. These findings highlight the importance of implicit probability in the flexibility of cognitive control of behavior.saccade; visual attention; voluntary control IN THE EVER-CHANGING WORLD, probabilistic information relating to the surrounding environment is actively utilized by individuals to adapt their behaviors flexibly to achieve their goals. The saccadic eye movement system is an excellent model for studying the flexibility of human behavior because it is conducive to measurement in the laboratory and has been well characterized on a neurophysiological basis (Hutton 2008;Munoz and Everling 2004). The effects of prior probabilistic information on saccadic performance have been well documented. For example, gaze is directed to specific locations faster when they represent higher likelihoods of target presence based on past experience (e.g., Carpenter and Williams 1995;Gmeindl et al. 2005;Liu et al. 2010;Miller 1988;Milstein and Dorris 2007; for recent reviews see Angelaki et al. 2009;Summerfield and Egner 2009). Most importantly, this utilization of probabilistic information is not constrained at the simple stimulus-and-response level, because it can also be observed when the task requires visual analysis and response selection. Recently, Liu et al. (2010) used a central cue to indicate to participants whether they should saccade to (prosaccade) or away from ...

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Trial type probability modulates the cost of antisaccades

Chiau

Tseng

et al. 2011

Journal of Neurophysiology

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“…Other studies have investigated situations in which multiple objects must be tracked and have found that eye gaze is directed more toward the centroid of the target group than to any single target (Fehd & Seiffert, 2008;Huff, Papenmeier, Jahn, & Hesse, 2010) The relationship between attention and eye movements has also been discussed in some literature reviews (Rayner, 2009;Theeuwes, Belopolsky, & Olivers, 2009). Research into visual behavior is motivated by applied psychological questions; the main topics of such research include the processing of facial expressions in social cognition (Brassen, Gamer, Rose, & Buchel, 2010;Domes et al, 2010;Gamer, Zurowski, & Buchel, 2010), the flexibility in the cognitive control of the oculomotor system analyzed in antisaccade paradigms (Liu et al, 2010;Stigchel, Imants, & Richard Ridderinkhof, 2011), and the experimental research of speech processing (Cho & Thompson, 2010;Myung et al, 2010). Eye movement data must undergo a principal processing pipeline including the following modules.…”

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GazeAlyze: a MATLAB toolbox for the analysis of eye movement data

et al. 2011

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This article presents GazeAlyze, a software package, written as a MATLAB (MathWorks Inc., Natick, MA) toolbox developed for the analysis of eye movement data. GazeAlyze was developed for the batch processing of multiple data files and was designed as a framework with extendable modules. GazeAlyze encompasses the main functions of the entire processing queue of eye movement data to static visual stimuli. This includes detecting and filtering artifacts, detecting events, generating regions of interest, generating spread sheets for further statistical analysis, and providing methods for the visualization of results, such as path plots and fixation heat maps. All functions can be controlled through graphical user interfaces. GazeAlyze includes functions for correcting eye movement data for the displacement of the head relative to the camera after calibration in fixed head mounts. The preprocessing and event detection methods in GazeAlyze are based on the software ILAB 3.6.8 Gitelman (Behav Res Methods Instrum Comput 34(4), 605-612, 2002). GazeAlyze is distributed free of charge under the terms of the GNU public license and allows code modifications to be made so that the program's performance can be adjusted according to a user's scientific requirements.

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Predictability of saccadic behaviors is modified by transcranial magnetic stimulation over human posterior parietal cortex

Chao

Tseng

Hsu

et al. 2011

Human Brain Mapping

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Predictability in the visual environment provides a powerful cue for efficient processing of scenes and objects. Recently, studies have suggested that the directionality and magnitude of saccade curvature can be informative as to how the visual system processes predictive information. The present study investigated the role of the right posterior parietal cortex (rPPC) in shaping saccade curvatures in the context of predictive and non-predictive visual cues. We used an orienting paradigm that incorporated manipulation of target location predictability and delivered transcranial magnetic stimulation (TMS) over rPPC. Participants were presented with either an informative or uninformative cue to upcoming target locations. Our results showed that rPPC TMS generally increased saccade latency and saccade error rates. Intriguingly, rPPC TMS increased curvatures away from the distractor only when the target location was unpredictable and decreased saccadic errors towards the distractor. These effects on curvature and accuracy were not present when the target location was predictable. These results dissociate the strong contingency between saccade latency and saccade curvature and also indicate that rPPC plays an important role in allocating and suppressing attention to distractors when the target demands visual disambiguation. Furthermore, the present study suggests that, like the frontal eye fields, rPPC is critically involved in determining saccade curvature and the generation of saccadic behaviors under conditions of differing target predictability.

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Antisaccade Cost Is Modulated by Contextual Experience of Location Probability

Cited by 32 publications

References 53 publications

Trial type probability modulates the cost of antisaccades

Trial type probability modulates the cost of antisaccades

GazeAlyze: a MATLAB toolbox for the analysis of eye movement data

Predictability of saccadic behaviors is modified by transcranial magnetic stimulation over human posterior parietal cortex

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