In everyday life, goal-oriented motor behaviour relies on the estimation of the rewards/costs associated with alternative actions and on the appropriate selection of movements. Motor decision making is defined as the process by which a motor plan is chosen among a set of competing actions based on the expected value. In the present literature review we discuss evidence from transcranial magnetic stimulation (TMS) studies of motor control. We focus primarily on studies of action selection for instructed movements and motor decision making. In the first section, we delve into the usefulness of various TMS paradigms to characterise the contribution of motor areas and distributed brain networks to cued action selection. Then, we address the influence of motivational information (e.g., reward and biomechanical cost) in guiding action choices based on TMS findings. Finally, we conclude that TMS represents a powerful tool for elucidating the neurophysiological mechanisms underlying action choices in humans.
Action Selection and Motor Decision Making: Insights from Transcranial Magnetic Stimulation / Tecilla, Margherita; Guerra, Andrea; Rocchi, Lorenzo; Määttä, Sara; Bologna, Matteo; Herrojo Ruiz, Maria; Biundo, Roberta; Antonini, Angelo; Ferreri, Florinda. - In: BRAIN SCIENCES. - ISSN 2076-3425. - ELETTRONICO. - 12:5(2022), pp. 639.1-639.17. [10.3390/brainsci12050639]
Action Selection and Motor Decision Making: Insights from Transcranial Magnetic Stimulation
Tecilla, Margherita;
2022
Abstract
In everyday life, goal-oriented motor behaviour relies on the estimation of the rewards/costs associated with alternative actions and on the appropriate selection of movements. Motor decision making is defined as the process by which a motor plan is chosen among a set of competing actions based on the expected value. In the present literature review we discuss evidence from transcranial magnetic stimulation (TMS) studies of motor control. We focus primarily on studies of action selection for instructed movements and motor decision making. In the first section, we delve into the usefulness of various TMS paradigms to characterise the contribution of motor areas and distributed brain networks to cued action selection. Then, we address the influence of motivational information (e.g., reward and biomechanical cost) in guiding action choices based on TMS findings. Finally, we conclude that TMS represents a powerful tool for elucidating the neurophysiological mechanisms underlying action choices in humans.| File | Dimensione | Formato | |
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