Implicit Sensorimotor Adaptation Proceeds in Absence of Movement Execution

• Published in: eNeuro Vol. 10; no. 8; p. ENEURO.0508-22.2023
• Main Authors: Pawlowsky, Constance, Thénault, François, Bernier, Pierre-Michel
• Format: Journal Article
• Language: English
• Published: United States Society for Neuroscience 01.08.2023
• Subjects: New Research; visuomotor adaptation; motor imagery; reaching; sensory prediction errors; motor commands; movement preparation
• ISSN: 2373-2822; 2373-2822
• DOI: 10.1523/ENEURO.0508-22.2023

In implicit sensorimotor adaptation, a mismatch between the predicted and actual sensory feedback results in a sensory prediction error (SPE). Sensory predictions have long been thought to be linked to descending motor commands, implying a necessary contribution of movement execution to adaptation. However, recent work has shown that mere motor imagery (MI) also engages predictive mechanisms, opening up the possibility that MI might be sufficient to drive implicit adaptation. In a within-subject design in humans ( n  = 30), implicit adaptation was assessed in a center-out reaching task, following a single exposure to a visuomotor rotation. It was hypothesized that performing MI of a reaching movement while being provided with an animation of rotated visual feedback (MI condition) would lead to postrotation biases (PRBs) similar to those observed when the movement is executed (Execution condition). Results revealed that both the MI and Execution conditions led to significant directional biases following rotated trials. Yet the magnitude of these biases was significantly larger in the Execution condition. To further probe the contribution of MI to adaptation, a Control condition was conducted in which participants were presented with the same rotated visual animation as in the MI condition, but in which they were prevented from performing MI. Surprisingly, significant biases were also observed in the Control condition, suggesting that MI per se may not have accounted for adaptation. Overall, these results suggest that implicit adaptation can be partially supported by processes other than those that strictly pertain to generating motor commands, although movement execution does potentiate it.