Future movement plans interact in sequential arm movements

Author:

Kashefi Mehrdad1ORCID,Reschechtko Sasha23ORCID,Ariani Giacomo14ORCID,Shahbazi Mahdiyar1ORCID,Tan Alice1,Diedrichsen Jörn154ORCID,Pruszynski J Andrew13ORCID

Affiliation:

1. Western Institute for Neuroscience, Western University

2. School of Exercise and Nutritional Sciences, San Diego State University

3. Department of Physiology and Pharmacology, Western University

4. Department of Computer Science, Western University

5. Department of Statistical and Actuarial Sciences, Western University

Abstract

Real world actions often comprise of a series of movements that cannot be entirely planned before initiation. When these actions are executed rapidly, the planning of multiple future movements needs to occur simultaneously with the ongoing action. How the brain solves this task remains unknown. Here we address this question with a new sequential arm reaching paradigm that manipulates how many future reaches are available for planning while controlling execution of the ongoing reach. We show that participants plan at least two future reaches simultaneously with an ongoing reach. Further, the planning processes of the two future reaches are not independent of one another. Evidence that the planning processes interact is two-fold. First, correcting for a visual perturbation of the ongoing reach target is slower when more future reaches are planned. Second, the curvature of the current reach is modified based on the next reach only when their planning processes temporally overlap. These interactions between future planning processes may enable smooth production of sequential actions by linking individual segments of a long sequence at the level of motor planning.

Publisher

eLife Sciences Publications, Ltd

Reference32 articles.

1. Simultaneous motor preparation and execution in a last-moment reach correction task;Nat Commun,2019

2. Sequence learning is driven by improvements in motor planning;J Neurophysiol,2019

3. The Planning Horizon for Movement Sequences;eNeuro,2021

4. Repetita iuvant: repetition facilitates online planning of sequential movements;J Neurophysiol,2020

5. Motor skill learning decreases movement variability and increases planning horizon;J Neurophysiol,2022

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