Results 201 to 208 of about 21,058 (208)
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Effects of focal muscle vibration on corticospinal excitability
Journal of the Neurological Sciences, 2017[no abstract available]
Nardone, Raffaele +5 more
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Corticospinal excitability changes following downhill and uphill walking
Experimental Brain Research, 2019Locomotor exercise may induce corticospinal excitability and/or cortical inhibition change in the knee extensors. This study investigated whether the mode of muscle contraction involved during a locomotor exercise modulates corticospinal and intracortical responsiveness.
Yoann M. Garnier +3 more
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Increased corticospinal excitability induced by unpleasant visual stimuli
Neuroscience Letters, 2010Pleasant and unpleasant emotional stimuli are frequently conceptualized as motivators for action. This notion was examined using focal transcranial magnetic stimulation (TMS). Ten healthy participants viewed pleasant, neutral, and unpleasant pictures from the International Affective Picture System (IAPS).
Coelho, Carlos M. +4 more
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Corticospinal excitability changes following prolonged muscle tendon vibration
NeuroReport, 2003The present experiment addressed the time course of corticospinal excitability changes following interventional muscle tendon vibration. Using transcranial magnetic stimulation, motor evoked potentials of the flexor carpi radialis and extensor carpi radialis brevis muscle were recorded for a period of 60 min after cessation of vibration (80 Hz, 0.5 mm,
Maarten, Steyvers +3 more
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Lower limb immobilization is associated with increased corticospinal excitability
Experimental Brain Research, 2007Temporary immobilization of the leg serves as a useful model for the brain's adaptive responses to casting, long-term confinement to bed rest and possibly to trauma. As part of a larger program using TMS to investigate changes associated with bed rest, we sought to determine whether casting of the leg causes brain excitability changes measurable with ...
ROBERTS D +9 more
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Task-dependent changes in corticospinal excitability
Electroencephalography and Clinical Neurophysiology, 1997openaire +1 more source
Factors influencing corticospinal excitability during arm cycling
Humans can effortlessly navigate their environments and perform a variety of motor tasks, yet the neural processes underlying these movements are complex. The corticospinal pathway, a major descending pathway involved in the voluntary control of human movement, can be assessed non-invasively using various stimulation techniques.openaire +1 more source