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Does faulty proprioceptive input disrupt the internal model of the body that the brain uses to control movement?

April 26, 2017body brain CONTROL disrupt faulty input Internal model uses

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Does faulty proprioceptive input disrupt the internal model of the body that the brain uses to control movement?

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DESIGN: Randomised, within-participant experimental study. PARTICIPANTS: Twenty-two (13 F) healthy adults. INTERVENTION: Participants performed a motor imagery task that involved making left/right judgements of pictured right and left hands in 16 different postures under five conditions involving stimuli being applied to the experimental (L) hand. The five conditions were: vibration (of the wrist extensor tendons to elicit the illusion of wrist flexion), sham (vibration of the ulna styloid), active flexion, passive flexion, and control (no stimulus). OUTCOME MEASURES: Accuracy and response time of the control (R) hand in making left/right judgements of the pictures. RESULTS: Response time during vibration was longer for those who reported the illusion of wrist flexion (n = 18) than for those who did not (p < 0.01) whereas accuracy was unaffected (p = 0.71). In those who reported the illusion, accuracy was unaffected by condition, hand or picture (p > 0.21). Response time during vibrati