Abstract

Sensory experiences, such as sound, often result from our motor actions. Over time, repeated sound-producing performance can generate sensorimotor associations. However, it is not clear how sensory and motor information are associated. Here, we explore if sensory prediction is associated with the formation of sensorimotor associations during a learning task. We recorded event-related potentials (ERPs) while participants produced index and little finger-swipes on a bespoke device, generating novel sounds. ERPs were also obtained as participants heard those sounds played back. Peak suppression was compared to assess sensory prediction. Additionally, transcranial magnetic stimulation (TMS) was used during listening to generate finger-motor evoked potentials (MEPs). MEPs were recorded before and after training upon hearing these sounds, and then compared to reveal sensorimotor associations. Finally, we explored the relationship between these components. Results demonstrated that an increased positive-going peak (e.g., P2) and a suppressed negative-going peak (e.g., N2) were recorded during action, revealing some sensory prediction outcomes (P2: p = 0.050, = 0.208; N2: p = 0.001, = 0.474). Increased MEPs were also observed upon hearing congruent sounds compared with incongruent sounds (i.e., associated to a finger), demonstrating precise sensorimotor associations that were not present before learning (Index finger: p < 0.001, = 0.614; Little finger: p < 0.001, = 0.529). Consistent with our broad hypotheses, a negative association between the MEPs in one finger during listening and ERPs during performance of the other was observed (Index finger MEPs and Fz N1 action ERPs; r = −0.655, p = 0.003). Overall, data suggest that predictive mechanisms are associated with the fine-tuning of sensorimotor associations.

Highlights

  • Sounds are produced by our motor actions

  • Sensory prediction indices are present in the form of enhanced P2 and suppressed N2 peaks during action

  • There appears to be a relationship between the strength of a sensorimotor association measured during listening and how a related, yet incongruent, sound is predicted during action

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Summary

Introduction

Sounds are produced by our motor actions. The cause and effect relationship between motor and sound information can become evident. Over time, repeated experience can generate sensorimotor associations and the innervation of motor and sensory data. It is proposed that these sensorimotor associations assist with. Learning to Expect precise motor control (Shadmehr et al, 2010). When learning to press a key on the piano, a student will begin to recognize that sounds are aligned with keys, and these are (typically) activated by specific finger movements. Should one desire to hear those sounds, the known finger movements should be executed

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