Experimental brain research. Experimentelle Hirnforschung. Expérimentation cérébrale
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Randomized Controlled Trial
Features of cortical neuroplasticity associated with multidirectional novel motor skill training: a TMS mapping study.
Given the evidence that the primary motor cortex (MI) consists of subpopulations of upper motor neurons tuned to different directional parameters of a motor movement, this study hypothesized that novel motor skill training involving either a bidirectional or more complex multidirectional tongue-typing movement should produce distinct training-related features of tongue MI neuroplasticity in humans. Novel motor skill training consisted of tongue typing using custom-made intra-oral keypads for 30-min over two consecutive days. The bidirectional keypad consisted of three sensors positioned along the upper palatal midline as a 3 × 1 array, whereas the multidirectional keypad consisted of nine sensors arranged as a 3 × 3 array that was centred along the upper palatal midline. ⋯ Bidirectional and multidirectional training were associated with increases and decreases in a number of cortical motor map sites from where tongue activity could be evoked, however; multidirectional training was associated with a greater number of cortical motor map sites with increased excitability and a shift in the centre of gravity of the motor map. No effects of training were found on the FDI TMS-MEP stimulus-response curves. This study revealed distinct training-related features of tongue MI neuroplasticity and proposes that a greater amount of functionally related neuronal populations may be 'trained' by the inclusion of different and more complex directional parameters within a novel motor task.
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Randomized Controlled Trial
Magnified visual feedback exacerbates positional variability in older adults due to altered modulation of the primary agonist muscle.
The purpose of this study was to determine whether magnified visual feedback during position-holding contractions exacerbates the age-associated differences in motor output variability due to changes in the neural activation of the agonist muscle in the upper and lower limb. Twelve young (18-35 years) and ten older adults (65-85 years) were instructed to accurately match a target position at 5° of index finger abduction and ankle dorsiflexion while lifting 10 % of their 1 repetition maximum (1RM) load. Position was maintained at three different visual angles (0.1°, 1°, and 4°) that varied across trials. ⋯ As expected, and independent of limb, older adults exhibited significantly greater positional variability compared with young adults that was exacerbated with magnification of visual feedback (1° and 4°). This increase in variability at the highest magnification of visual feedback was predicted by a decrease in power from 12 to 30 Hz of the agonist EMG signal. These findings demonstrate that motor control in older adults is impaired by magnified visual feedback during positional tasks.
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Randomized Controlled Trial Comparative Study
Heterotopic low-frequency stimulation induces nociceptive LTD within the same central receptive field in man.
Electrical low-frequency stimulation (LFS) evokes long-term depression (LTD) of nociception. Human studies suggested a strictly homotopic organization. This study hypothesizes that even heterotopic LFS evokes LTD within the same receptive field (RF). ⋯ In ExpArm (n = 20), LFS to the center of the RF induced a stronger pain reduction than LFS applied outside the RF (P < 0.001). This study demonstrates a heterosynaptic organization of LTD within the same RF. Profound knowledge about RF involvement on LTD seems crucial in order to judge the quality of LFS as a possible neuromodulatory treatment of pain.
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Randomized Controlled Trial
The role of spatial attention in attentional control over pain: an experimental investigation.
Distraction is a common method of pain control that is often found to be effective. However, it is still largely unexplored which components of distraction are responsible for its effects. This study investigated the role of the spatial location of task-relevant stimuli in the effectiveness of distraction. ⋯ In a second experiment, we examined whether the manipulation of spatial location affects the experience of pain. Overall, results indicated that directing attention away from the pain location results in a slower response to painful stimuli and a reduction in pain. It may be concluded that the analgesic effect of distraction is at least partly the result of the spatial location of the distracting information.
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Randomized Controlled Trial
Discharge of biceps brachii motor units is modulated by load compliance and forearm posture.
The purpose of this study was to compare the discharge characteristics of motor units in the biceps brachii during brief isometric contractions of the elbow flexors as subjects matched either a target force or a target joint angle with the forearm placed in one of two postures. One task required force control to exert a constant force against a rigid restraint (force task), whereas the other task involved position control to maintain a constant elbow angle while supporting an inertial load (position task). The left arm of right-handed subjects was rotated forward so that the upper arm was horizontal and the forearm was vertical. ⋯ Discharge rate was similar at the start of the force and position tasks in both the neutral posture (13.1 +/- 0.6 and 12.6 +/- 0.6 pps, P = 0.54) and the supinated posture (14.7 +/- 1.6 and 14.0 +/- 0.9 pps, P = 0.4) and declined during both tasks in the two forearm postures (P < 0.001). Nonetheless, the decrease in discharge rate (P < 0.001), increase in the coefficient of variation for interspike interval (P = 0.04), and increases in the standard deviation of acceleration (P = 0.02) were greatest for the position task in the supinated posture. These findings indicate that the influence of load compliance on the adjustments in motor unit activity during brief isometric contractions with the elbow flexors was modulated by changes in forearm posture.