Add to ORKGOne of the most fascinating fields of research in neuroscience regards how the human brain controls the hand in a way that allows to switch flexibly between different tasks while maintaining stable postural configurations. Among the many theories that have been proposed to explain hand control, a recent account suggests that sets of muscles and joints may be simultaneously recruited as functional modules, called synergies. However, despite a synergy-based organization is suggested by many studies in animals as well as recordings of postural or muscle activity, the existence of direct correlates of those motor modules in brain activity remains debated. In this work, kinematic, electromyography, and functional MRI measures are collected in se...
Humans have unique abilities to perform certain types of skilled voluntary movements. In this thesis...
Objective:The aim of this study was to verify whether motor imagery (MI) and observation of a moveme...
Thesis (Ph.D.)--University of Washington, 2013Electrophysiology studies of the brain allow us to stu...
The control of the many degrees of freedom of the hand through functional modules (hand synergies) h...
The control of the many degrees of freedom of the hand through functional modules (hand synergies) h...
How the human brain controls hand movements to carry out different tasks is still debated. The conce...
Hand grasp patterns are the results of complex kinematic-muscular coordination and synergistic contr...
Abstract The human hand, with many degrees of freedom, serves as an excellent tool for dexterous man...
The hand has evolved to allow specialized interactions with our surroundings that define much of wha...
Kinematic and muscle patterns underlying hand grasps have been widely investigated in the literature...
The human hand has so many degrees of freedom that it may seem impossible to control. A potential so...
The neural control of “cooperative ” hand movements reflecting “opening a bottle ” was explored in h...
Abstract Motor synergies have been investigated since the 1980s as a simplifying representation of m...
Background: Kinematic and muscle patterns underlying hand grasps have been widely investigated in th...
The goal of this thesis is to investigate the functional communication between primary motor (M1) an...
Humans have unique abilities to perform certain types of skilled voluntary movements. In this thesis...
Objective:The aim of this study was to verify whether motor imagery (MI) and observation of a moveme...
Thesis (Ph.D.)--University of Washington, 2013Electrophysiology studies of the brain allow us to stu...
The control of the many degrees of freedom of the hand through functional modules (hand synergies) h...
The control of the many degrees of freedom of the hand through functional modules (hand synergies) h...
How the human brain controls hand movements to carry out different tasks is still debated. The conce...
Hand grasp patterns are the results of complex kinematic-muscular coordination and synergistic contr...
Abstract The human hand, with many degrees of freedom, serves as an excellent tool for dexterous man...
The hand has evolved to allow specialized interactions with our surroundings that define much of wha...
Kinematic and muscle patterns underlying hand grasps have been widely investigated in the literature...
The human hand has so many degrees of freedom that it may seem impossible to control. A potential so...
The neural control of “cooperative ” hand movements reflecting “opening a bottle ” was explored in h...
Abstract Motor synergies have been investigated since the 1980s as a simplifying representation of m...
Background: Kinematic and muscle patterns underlying hand grasps have been widely investigated in th...
The goal of this thesis is to investigate the functional communication between primary motor (M1) an...
Humans have unique abilities to perform certain types of skilled voluntary movements. In this thesis...
Objective:The aim of this study was to verify whether motor imagery (MI) and observation of a moveme...
Thesis (Ph.D.)--University of Washington, 2013Electrophysiology studies of the brain allow us to stu...