Add to ORKGCo-activation of homo- and heterotopic representations in the primary motor cortex (M1) ipsilateral to a unilateral motor task has been observed in neuroimaging studies. Further analysis showed that the ipsilateral M1 is involved in motor execution along with the contralateral M1 in humans. Additionally, transcranial magnetic stimulation (TMS) studies have revealed that the size of the co-activation in the ipsilateral M1 has a muscle-dominant effect in the upper limbs, with a prominent decline of inhibition within the ipsilateral M1 occurring when a homologous muscle contracts. However, the homologous muscle-dominant effect in the ipsilateral M1 is less clear in the lower limbs. The present study investigates the response of corticospinal o...
In this transcranial magnetic stimulation study, we assessed motor cortex excitability in the restin...
Larger body parts are somatotopically represented in the primary motor cortex (M1), while smaller bo...
■ Executing difficult actions with the left hand results in bilat-eral activity of motor areas along...
Co-activation of homo- and heterotopic representations in the primary motor cortex (M1) ipsilateral ...
Co-activation of homo- and heterotopic representations in the primary motor cortex (M1) ipsilateral ...
Unilateral movements are mainly controlled by the contralateral hemisphere, even though the primary ...
The present study aimed to further investigate whether the intracortical neural circuits within the ...
Trunk muscles receive corticospinal innervation ipsilaterally and contralaterally and here we invest...
The aim of this study was to investigate the difference in a muscle contraction phase dependence bet...
It remains unclear what neuronal mechanisms in humans are reflected in the activation of the ipsilat...
The effect of unilateral tonic muscle activity with and without co-activation of the antagonists on ...
Corticospinal excitability is modulated for muscles on both sides of the body during unilateral move...
Abstract Background The interaction between homologous muscle representations in the right and left ...
Executing difficult actions with the left hand results in bilateral activity of motor areas along th...
Voluntary force production requires that the brain produces and transmits a motor command to the mus...
In this transcranial magnetic stimulation study, we assessed motor cortex excitability in the restin...
Larger body parts are somatotopically represented in the primary motor cortex (M1), while smaller bo...
■ Executing difficult actions with the left hand results in bilat-eral activity of motor areas along...
Co-activation of homo- and heterotopic representations in the primary motor cortex (M1) ipsilateral ...
Co-activation of homo- and heterotopic representations in the primary motor cortex (M1) ipsilateral ...
Unilateral movements are mainly controlled by the contralateral hemisphere, even though the primary ...
The present study aimed to further investigate whether the intracortical neural circuits within the ...
Trunk muscles receive corticospinal innervation ipsilaterally and contralaterally and here we invest...
The aim of this study was to investigate the difference in a muscle contraction phase dependence bet...
It remains unclear what neuronal mechanisms in humans are reflected in the activation of the ipsilat...
The effect of unilateral tonic muscle activity with and without co-activation of the antagonists on ...
Corticospinal excitability is modulated for muscles on both sides of the body during unilateral move...
Abstract Background The interaction between homologous muscle representations in the right and left ...
Executing difficult actions with the left hand results in bilateral activity of motor areas along th...
Voluntary force production requires that the brain produces and transmits a motor command to the mus...
In this transcranial magnetic stimulation study, we assessed motor cortex excitability in the restin...
Larger body parts are somatotopically represented in the primary motor cortex (M1), while smaller bo...
■ Executing difficult actions with the left hand results in bilat-eral activity of motor areas along...