A Single High-intensity Exercise Bout During Early Consolidation Does Not Influence Retention or Relearning of Sensorimotor Locomotor Long-term Memories

Overview

Journal Exp Brain Res

Specialty Neurology

Date 2019 Aug 25

PMID 31444538

Citations 5

Authors

Charalambos C Charalambous

Margaret A French

Susanne M Morton

Darcy S Reisman

Affiliations

Soon will be listed here.

Abstract

A single exercise bout has been found to improve the retention of a skill-based upper extremity motor task up to a week post-practice. This effect is the greatest when exercise intensity is high and exercise is administered immediately after motor practice (i.e., early in consolidation). Whether exercise can affect other motor learning types (e.g., sensorimotor adaptation) and tasks (e.g., walking) is still unclear as previous studies have not optimally refined the exercise parameters and long-term retention testing. Therefore, we investigated whether a single high-intensity exercise bout during early consolidation would improve the long-term retention and relearning of sensorimotor adaptation during split-belt treadmill walking. Twenty-six neurologically intact adults attended three sessions; sessions 2 and 3 were 1 day and 7 days after session 1, respectively. Participants were allocated either to Rest (REST) or to Exercise (EXE) group. In session 1, all groups walked on a split-belt treadmill in a 2:1 speed ratio (1.5:0.75 m/s). Then, half of the participants exercised for 5 min (EXE), while the other half rested for 5 min (REST). A short exercise bout during early consolidation did not improve retention or relearning of locomotor memories one or seven days after session 1. This result reinforces previous findings that the effect of exercise on motor learning may differ between sensorimotor locomotor adaptation and skilled-based upper extremity tasks; thus, the utility of exercise as a behavioral booster of motor learning may depend on the type of motor learning and task.

Citing Articles

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Minimum effort simulations of split-belt treadmill walking exploit asymmetry to reduce metabolic energy expenditure.

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The acute effects of aerobic exercise on sensorimotor adaptation in chronic stroke.

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