Abstract
Purpose Unilateral strength training strengthens not only the muscles on the trained side but also the homologous muscles on the untrained side; however, the magnitude of this interlimb cross-education is modest. We tested the hypothesis that heightened sensory feedback by mirror viewing the exercising hand would augment cross education by modulating neuronal excitability.
Methods Healthy adults were randomized into a mirror training group (MG, N = 11) and a no-mirror training group (NMG, N = 12) and performed 640 shortening muscle contractions of the right wrist flexors at 80% maximum voluntary contraction (MVC) during 15 sessions for 3 wk. Maximal strength and specific transcranial magnetic stimulation metrics of neuronal excitability, measured in the mirror and no-mirror setup at rest and during unilateral contractions at 60% MVC, were assessed before and after the strength intervention.
Results Trained wrist flexor MVC increased 72% across groups, whereas cross-education was higher for the MG (61%) than NMG (34%, P = 0.047). The MG showed a reduction (15%-16%) in the contralateral silent period duration measured from the contracting left-untrained flexor carpi radialis, whereas the NMG showed an increase (12%, P 0.030). Interhemispheric inhibition, measured from the trained to the untrained primary motor cortex, increased in the MG (11%) but decreased in the NMG (15%) when measured in the mirror setup at rest (P = 0.048). Other transcranial magnetic stimulation measures did not change.
Conclusion Viewing the exercising hand in a mirror can augment the cross-education effect. The use of a mirror in future studies can potentially accelerate functional recovery from unilateral impairment due to stroke or upper limb fracture.
Original language | English |
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Pages (from-to) | 1001-1013 |
Number of pages | 13 |
Journal | Medicine and Science in Sports and Exercise |
Volume | 48 |
Issue number | 6 |
DOIs | |
Publication status | Published - Jun-2016 |
Keywords
- FLEXOR CARPI RADIALIS
- INHIBITION
- INTERLIMB TRANSFER
- MOTOR CORTEX
- STRENGTH TRAINING
- TRANSCRANIAL MAGNETIC STIMULATION
- HUMAN MOTOR CORTEX
- SILENT PERIOD
- INTERHEMISPHERIC INHIBITION
- PLASTICITY
- MECHANISMS
- MUSCLE
- EXCITABILITY
- CONTRACTIONS
- ADAPTATIONS