Investigating the neurophysiology behind our action encoding system offers a way of probing the underlying mechanisms regarding how we understand seen action. The ability to mentally simulate action (motor simulation) is a strong proposal to understand how we interpret others’ actions. The process of how we generate accurate motor simulations is proposed to be reliant on the context of the movement and sensory feedback from the limb. However, the neurophysiological mechanisms behind motor simulation are not yet understood. Known motor physiology for right-handed individuals show there is a left parietal-frontal network for the mental simulation of skilled movements; however, it remains unclear whether this is due to right limb dominance of ...
Contains fulltext : 77126.pdf (publisher's version ) (Closed access)It has been ar...
The role of the primary motor cortex (M1) during mental simulation of movement is open to debate. In...
Motor lateralization in humans has primarily been characterized as ‘‘handedness’’, resulting in the ...
Investigating the neurophysiology behind our action encoding system offers a way of probing the unde...
Contains fulltext : 76714.pdf (publisher's version ) (Open Access)If motor imagery...
The ability to comprehend outcomes of skilled action is important for understanding the world around...
The idea of motor resonance was born at the time that it was demonstrated that cortical and spinal p...
Motor imagery is a dynamic state in which an individual mentally simulates the performance of a spec...
The idea of motor resonance was born at the time that it was demonstrated that cortical and spinal p...
Contains fulltext : 56041.pdf (publisher's version ) (Closed access)Motor imagery ...
In recent years, many researches have explored the relationship between overt and covert motor activ...
Contains fulltext : 99849.pdf (publisher's version ) (Open Access)Recent studies s...
The human Mirror Neuron System is a fronto-parietal neural pathway which, when activated by action o...
The role of proprioceptive feedback on motor lateralization remains unclear. We asked whether motor ...
The role of the primary motor cortex (M1) during mental simulation of movement is open to debate. In...
Contains fulltext : 77126.pdf (publisher's version ) (Closed access)It has been ar...
The role of the primary motor cortex (M1) during mental simulation of movement is open to debate. In...
Motor lateralization in humans has primarily been characterized as ‘‘handedness’’, resulting in the ...
Investigating the neurophysiology behind our action encoding system offers a way of probing the unde...
Contains fulltext : 76714.pdf (publisher's version ) (Open Access)If motor imagery...
The ability to comprehend outcomes of skilled action is important for understanding the world around...
The idea of motor resonance was born at the time that it was demonstrated that cortical and spinal p...
Motor imagery is a dynamic state in which an individual mentally simulates the performance of a spec...
The idea of motor resonance was born at the time that it was demonstrated that cortical and spinal p...
Contains fulltext : 56041.pdf (publisher's version ) (Closed access)Motor imagery ...
In recent years, many researches have explored the relationship between overt and covert motor activ...
Contains fulltext : 99849.pdf (publisher's version ) (Open Access)Recent studies s...
The human Mirror Neuron System is a fronto-parietal neural pathway which, when activated by action o...
The role of proprioceptive feedback on motor lateralization remains unclear. We asked whether motor ...
The role of the primary motor cortex (M1) during mental simulation of movement is open to debate. In...
Contains fulltext : 77126.pdf (publisher's version ) (Closed access)It has been ar...
The role of the primary motor cortex (M1) during mental simulation of movement is open to debate. In...
Motor lateralization in humans has primarily been characterized as ‘‘handedness’’, resulting in the ...