Reductions in the base of support (BOS) make standing difficult and require adjustments in the neural control of sway. In healthy young adults, we determined the effects of reductions in mediolateral (ML) BOS on peroneus longus (PL) motor evoked potential (MEP), intracortical facilitation (ICF), short interval intracortical inhibition (SICI) and long interval intracortical inhibition (LICI) using transcranial magnetic stimulation (TMS). We also examined whether participant-specific neural excitability influences the responses to increasing standing difficulty. Repeated measures ANOVA revealed that with increasing standing difficulty MEP size increased, SICI decreased (both p < 0.05) and ICF trended to decrease (p = 0.07). LICI decreased onl...
Posture control is one of the most fundamental motor tasks; however, the underlying mechanisms are s...
AbstractNon-physical balance training has demonstrated to be efficient to improve postural control i...
Balance control during upright standing is accompanied by an increased amplitude of motor potentials...
Reductions in the base of support (BOS) make standing difficult and require adjustments in the neura...
Reductions in the base of support (BOS) make standing difficult and require adjustments in the neura...
Reductions in the base of support (BOS) make standing difficult and require adjustments in the neura...
In standing, corticospinal excitability increases and primary motor cortex (M1) inhibition decreases...
Background: Although recent studies point to the involvement of the primary motor cortex in postural...
Purpose In a previous study, we reported that a short-interval intracortical inhibition (SICI) decre...
Recent studies demonstrated that the corticospinal pathway is one of the key nodes for the feedback ...
When humans are asked to stand normally, they are not completely motionless. Rather, small amounts o...
For almost 150 years, researchers have been intrigued by the complex neural control of standing bala...
Posture control is one of the most fundamental motor tasks; however, the underlying mechanisms are s...
AbstractNon-physical balance training has demonstrated to be efficient to improve postural control i...
Balance control during upright standing is accompanied by an increased amplitude of motor potentials...
Reductions in the base of support (BOS) make standing difficult and require adjustments in the neura...
Reductions in the base of support (BOS) make standing difficult and require adjustments in the neura...
Reductions in the base of support (BOS) make standing difficult and require adjustments in the neura...
In standing, corticospinal excitability increases and primary motor cortex (M1) inhibition decreases...
Background: Although recent studies point to the involvement of the primary motor cortex in postural...
Purpose In a previous study, we reported that a short-interval intracortical inhibition (SICI) decre...
Recent studies demonstrated that the corticospinal pathway is one of the key nodes for the feedback ...
When humans are asked to stand normally, they are not completely motionless. Rather, small amounts o...
For almost 150 years, researchers have been intrigued by the complex neural control of standing bala...
Posture control is one of the most fundamental motor tasks; however, the underlying mechanisms are s...
AbstractNon-physical balance training has demonstrated to be efficient to improve postural control i...
Balance control during upright standing is accompanied by an increased amplitude of motor potentials...