The execution of voluntary movements is primarily governed by the cerebral hemisphere contralateral to the moving limb. Previous research indicates that the ipsilateral motor network, comprising the primary motor cortex (M1), supplementary motor area (SMA), and premotor cortex (PM), plays a crucial role in the planning and execution of limb movements. However, the precise functions of this network and its interplay in different task contexts have yet to be fully understood. Twenty healthy right-handed participants (10 females, mean age 26.1 ± 4.6 years) underwent functional MRI scans while performing biceps brachii representations such as bilateral, unilateral flexion, and bilateral flexion-extension. Ipsilateral motor evoked potentials (iM...
Imaging and brain stimulation studies seem to correct the classical understanding of how brain netwo...
In humans, motor learning is underpinned by changes in sensorimotor network functional connectivity ...
During voluntary action, dorsal premotor cortex (PMd) may exert influences on motor regions in both ...
Objective The role of ipsilateral descending motor pathways in voluntary movement of humans is stil...
It is generally known that the cortical motor system of each hemisphere controls the movements execu...
Cortical reorganization within the primary motor cortex (M1) contralateral to a practicing hand has ...
Humans possess the ability to generate an incredible degree of complex, highly skilled, and coordina...
The primary control centres for unimanual motor control reside in the contralateral hemisphere. Ipsi...
Motor skills are mediated by a dynamic and finely regulated interplay of the primary motor cortex (M...
Movements of the upper limb are controlled mostly through the contralateral hemisphere. Although ove...
Objective: Ipsilateral connectivity from the non-stroke hemisphere to paretic arm muscles appears to...
There is increasing evidence that the hemisphere ipsilateral to a moving limb plays a role in planni...
Executing difficult actions with the left hand results in bilateral activity of motor areas along th...
IntroductionIpsilateral motor evoked potentials (iMEPs) are difficult to obtain in distal upper limb...
Introduction: Several studies have shown that the primary motor cortex (M1) is involved in controlli...
Imaging and brain stimulation studies seem to correct the classical understanding of how brain netwo...
In humans, motor learning is underpinned by changes in sensorimotor network functional connectivity ...
During voluntary action, dorsal premotor cortex (PMd) may exert influences on motor regions in both ...
Objective The role of ipsilateral descending motor pathways in voluntary movement of humans is stil...
It is generally known that the cortical motor system of each hemisphere controls the movements execu...
Cortical reorganization within the primary motor cortex (M1) contralateral to a practicing hand has ...
Humans possess the ability to generate an incredible degree of complex, highly skilled, and coordina...
The primary control centres for unimanual motor control reside in the contralateral hemisphere. Ipsi...
Motor skills are mediated by a dynamic and finely regulated interplay of the primary motor cortex (M...
Movements of the upper limb are controlled mostly through the contralateral hemisphere. Although ove...
Objective: Ipsilateral connectivity from the non-stroke hemisphere to paretic arm muscles appears to...
There is increasing evidence that the hemisphere ipsilateral to a moving limb plays a role in planni...
Executing difficult actions with the left hand results in bilateral activity of motor areas along th...
IntroductionIpsilateral motor evoked potentials (iMEPs) are difficult to obtain in distal upper limb...
Introduction: Several studies have shown that the primary motor cortex (M1) is involved in controlli...
Imaging and brain stimulation studies seem to correct the classical understanding of how brain netwo...
In humans, motor learning is underpinned by changes in sensorimotor network functional connectivity ...
During voluntary action, dorsal premotor cortex (PMd) may exert influences on motor regions in both ...