Competitive state of movements during planning predicts sequence performance

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Competitive state of movements during planning predicts sequence performance. / Mantziara, Myrto; Ivanov, Tsvetoslav; Houghton, George et al.
Yn: Journal of Neurophysiology, Cyfrol 125, Rhif 4, 04.2021, t. 1251-1268.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Mantziara, M, Ivanov, T, Houghton, G & Kornysheva, K 2021, 'Competitive state of movements during planning predicts sequence performance', Journal of Neurophysiology, cyfrol. 125, rhif 4, tt. 1251-1268. https://doi.org/10.1152/jn.00645.2020

APA

Mantziara, M., Ivanov, T., Houghton, G., & Kornysheva, K. (2021). Competitive state of movements during planning predicts sequence performance. Journal of Neurophysiology, 125(4), 1251-1268. https://doi.org/10.1152/jn.00645.2020

CBE

Mantziara M, Ivanov T, Houghton G, Kornysheva K. 2021. Competitive state of movements during planning predicts sequence performance. Journal of Neurophysiology. 125(4):1251-1268. https://doi.org/10.1152/jn.00645.2020

MLA

Mantziara, Myrto et al. "Competitive state of movements during planning predicts sequence performance". Journal of Neurophysiology. 2021, 125(4). 1251-1268. https://doi.org/10.1152/jn.00645.2020

VancouverVancouver

Mantziara M, Ivanov T, Houghton G, Kornysheva K. Competitive state of movements during planning predicts sequence performance. Journal of Neurophysiology. 2021 Ebr;125(4):1251-1268. Epub 2021 Ebr 8. doi: 10.1152/jn.00645.2020

Author

Mantziara, Myrto ; Ivanov, Tsvetoslav ; Houghton, George et al. / Competitive state of movements during planning predicts sequence performance. Yn: Journal of Neurophysiology. 2021 ; Cyfrol 125, Rhif 4. tt. 1251-1268.

RIS

TY - JOUR

T1 - Competitive state of movements during planning predicts sequence performance

AU - Mantziara, Myrto

AU - Ivanov, Tsvetoslav

AU - Houghton, George

AU - Kornysheva, Katja

PY - 2021/4

Y1 - 2021/4

N2 - Humans can learn and produce skilled movement sequences from memory, yet the nature of sequence planning is not well understood. Previous computational and neurophysiological work suggests that movements in a sequence are planned as parallel graded activations and selected for output through competition. However, the relevance of this planning patterns to sequence production fluency and accuracy, as opposed to the temporal structure of sequences, is unclear. To resolve this question, we assessed the relative availability of constituent movements behaviourally during the preparation of motor sequences from memory. In three separate multi-session experiments, healthy participants were trained to retrieve and produce 4-element finger press sequences with particular timing according to an abstract sequence cue. We evaluated reaction time (RT) and error rate as markers of movement availability to constituent movement probes. Our results demonstrate that longer preparation time produces more pronounced differences in availability between adjacent sequence elements, whilst no effect was found for sequence speed or temporal grouping. Further, participants with larger position-dependent differences in movement availability tended to initiate correct sequences faster and with a higher temporal accuracy. Our results suggest that competitive pre-activation is established gradually during sequence planning and predicts sequence skill, rather than the temporal structure of the motor sequence.

AB - Humans can learn and produce skilled movement sequences from memory, yet the nature of sequence planning is not well understood. Previous computational and neurophysiological work suggests that movements in a sequence are planned as parallel graded activations and selected for output through competition. However, the relevance of this planning patterns to sequence production fluency and accuracy, as opposed to the temporal structure of sequences, is unclear. To resolve this question, we assessed the relative availability of constituent movements behaviourally during the preparation of motor sequences from memory. In three separate multi-session experiments, healthy participants were trained to retrieve and produce 4-element finger press sequences with particular timing according to an abstract sequence cue. We evaluated reaction time (RT) and error rate as markers of movement availability to constituent movement probes. Our results demonstrate that longer preparation time produces more pronounced differences in availability between adjacent sequence elements, whilst no effect was found for sequence speed or temporal grouping. Further, participants with larger position-dependent differences in movement availability tended to initiate correct sequences faster and with a higher temporal accuracy. Our results suggest that competitive pre-activation is established gradually during sequence planning and predicts sequence skill, rather than the temporal structure of the motor sequence.

KW - motor planning

KW - sequence control

KW - competitive queuing

KW - reaction time

KW - error rate

U2 - 10.1152/jn.00645.2020

DO - 10.1152/jn.00645.2020

M3 - Article

VL - 125

SP - 1251

EP - 1268

JO - Journal of Neurophysiology

JF - Journal of Neurophysiology

SN - 0022-3077

IS - 4

ER -