Event-Related Potentials, Reaction Time, and Response Selection of Skilled and Less-Skilled Cricket Batsmen

Spatial selection of relevant information has been proposed to reflect an emergent feature of stimulus processing within an integrated network of perceptual areas. Stimulus-based and intention-based sources of information might converge in a common stage when spatial maps are generated. This approach appears to be inconsistent with the assumption of distinct mechanisms for stimulus-driven and top-down controlled attention. In two experiments, the common ground of stimulus-driven and intention-based attention was tested by means of event-related potentials (ERPs) in the human EEG. In both experiments, the processing of a single transient was compared to the selection of a physically comparable stimulus among distractors. While single transients evoked a spatially sensitive N1, the extraction of relevant information out of a more complex display was reflected in an N2pc. The high similarity of the spatial portion of these two components (Experiment 1), and the replication of this finding for the vertical axis (Experiment 2) indicate that these two ERP components might both reflect the spatial representation of relevant information as derived from the organization of perceptual maps, just at different points in time.

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Event-related potentials in autistic and healthy children on an auditory choice reaction time task

International Journal of Psychophysiology ◽

10.1016/0167-8760(88)90032-3 ◽

1988 ◽

Vol 6 (1) ◽

pp. 25-37 ◽

Cited By ~ 65

Author(s):

R.D. Oades ◽

M.K. Walker ◽

L.B. Geffen ◽

L.M. Stern

Keyword(s):

Reaction Time ◽

Choice Reaction Time ◽

Event Related Potentials ◽

Reaction Time Task ◽

Choice Reaction Time Task ◽

Healthy Children ◽

Time Task ◽

Related Potentials

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Electrophysiological Correlates of Similarity-based Interference during Detection of Visual Forms

Journal of Cognitive Neuroscience ◽

10.1162/jocn.2006.18.6.880 ◽

2006 ◽

Vol 18 (6) ◽

pp. 880-888 ◽

Cited By ~ 21

Author(s):

Markus Conci ◽

Klaus Gramann ◽

Hermann J. Müller ◽

Mark A. Elliott

Keyword(s):

Target Selection ◽

Event Related Potentials ◽

Form Perception ◽

Psychological Review ◽

Physiological Basis ◽

Related Potentials ◽

Kanizsa Figure ◽

Global And Local ◽

Selection Of ◽

Form Information

Illusory figure completion demonstrates the ability of the visual system to integrate information across gaps. Mechanisms that underlie figural emergence support the interpolation of contours and the filling-in of form information [Grossberg, S., & Mingolla, E. Neural dynamics of form perception: Boundary completion, illusory figures and neon colour spreading. Psychological Review, 92, 173–211, 1985]. Although both processes contribute to figure formation, visual search for an illusory target configuration has been shown to be susceptible to interfering form, but not contour, information [Conci, M., Müller, H. J., & Elliott, M. A. The contrasting impact of global and local object attributes on Kanizsa figure detection. Submitted]. Here, the physiological basis of form interference was investigated by recording event-related potentials elicited from contour- and surface-based distracter interactions with detection of a target Kanizsa figure. The results replicated the finding of form interference and revealed selection of the target and successful suppression of the irrelevant distracter to be reflected by amplitude differences in the N2pc component (240–340 msec). In conclusion, the observed component variations reflect processes of target selection on the basis of integrated form information resulting from figural completion processes.

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Modality differences in ERP components between somatosensory and auditory Go/No-go paradigms in prepubescent children

PLoS ONE ◽

10.1371/journal.pone.0259653 ◽

2021 ◽

Vol 16 (11) ◽

pp. e0259653

Author(s):

Hiroki Nakata ◽

Miho Takezawa ◽

Keita Kamijo ◽

Manabu Shibasaki

Keyword(s):

Reaction Time ◽

Behavioral Responses ◽

Event Related Potentials ◽

Error Rates ◽

Peak Latency ◽

Peak Amplitude ◽

Time Variability ◽

Commission Error ◽

Reaction Time Variability ◽

Related Potentials

We investigated modality differences in the N2 and P3 components of event-related potentials (ERPs) between somatosensory and auditory Go/No-go paradigms in eighteen healthy prepubescent children (mean age: 125.9±4.2 months). We also evaluated the relationship between behavioral responses (reaction time, reaction time variability, and omission and commission error rates) and amplitudes and latencies of N2 and P3 during somatosensory and auditory Go/No-go paradigms. The peak latency of No-go-N2 was significantly shorter than that of Go-N2 during somatosensory paradigms, but not during auditory paradigms. The peak amplitude of P3 was significantly larger during somatosensory than auditory paradigms, and the peak latency of P3 was significantly shorter during somatosensory than auditory paradigms. Correlations between behavioral responses and the P3 component were not found during somatosensory paradigms. On the other hand, in auditory paradigms, correlations were detected between the reaction time and peak amplitude of No-go-P3, and between the reaction time variability and peak latency of No-go-P3. A correlation was noted between commission error and the peak latency of No-go-N2 during somatosensory paradigms. Compared with previous adult studies using both somatosensory and auditory Go/No-go paradigms, the relationships between behavioral responses and ERP components would be weak in prepubescent children. Our data provide findings to advance understanding of the neural development of motor execution and inhibition processing, that is dependent on or independent of the stimulus modality.

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The Influence of Subclinical Neck Pain on Neurophysiological and Behavioral Measures of Multisensory Integration

Brain Sciences ◽

10.3390/brainsci9120362 ◽

2019 ◽

Vol 9 (12) ◽

pp. 362

Author(s):

Antonia M. Karellas ◽

Paul Yielder ◽

James J. Burkitt ◽

Heather S. McCracken ◽

Bernadette A. Murphy

Keyword(s):

Reaction Time ◽

Neck Pain ◽

Multisensory Integration ◽

Performance Measures ◽

Brain Activity ◽

Event Related Potentials ◽

Control Group ◽

Neural Processing ◽

Significant Group ◽

Related Potentials

Multisensory integration (MSI) is necessary for the efficient execution of many everyday tasks. Alterations in sensorimotor integration (SMI) have been observed in individuals with subclinical neck pain (SCNP). Altered audiovisual MSI has previously been demonstrated in this population using performance measures, such as reaction time. However, neurophysiological techniques have not been combined with performance measures in the SCNP population to determine differences in neural processing that may contribute to these behavioral characteristics. Electroencephalography (EEG) event-related potentials (ERPs) have been successfully used in recent MSI studies to show differences in neural processing between different clinical populations. This study combined behavioral and ERP measures to characterize MSI differences between healthy and SCNP groups. EEG was recorded as 24 participants performed 8 blocks of a simple reaction time (RT) MSI task, with each block consisting of 34 auditory (A), visual (V), and audiovisual (AV) trials. Participants responded to the stimuli by pressing a response key. Both groups responded fastest to the AV condition. The healthy group demonstrated significantly faster RTs for the AV and V conditions. There were significant group differences in neural activity from 100–140 ms post-stimulus onset, with the control group demonstrating greater MSI. Differences in brain activity and RT between individuals with SCNP and a control group indicate neurophysiological alterations in how individuals with SCNP process audiovisual stimuli. This suggests that SCNP alters MSI. This study presents novel EEG findings that demonstrate MSI differences in a group of individuals with SCNP.

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