Muscles generate force and enable movement. After excitation of a muscle the muscle fibers contract. Methods to assess muscle contraction in vivo are scarce. Electromechanical delay (EMD), defined as the time lag between muscle excitation and contraction onset, has been proposed as a measure for contraction efficiency, but provides limited insight in electromechanical muscle dynamics. The current paper proposes and evaluates a novel non-invasive method to simultaneously track the propagation of both electrical and mechanical waves in muscles using high density electromyography and ultrafast ultrasound imaging (5 kHz). The method successfully tracked the propagation of the excitation-contraction (E-C) coupling in electrically evoked twitch c...
International audienceBackground: Electromechanical delay is the time lag between onsets of muscle a...
Electromyography and ultrasonography provide complementary information about electrophysiological an...
Electromyography (EMG) has been widely used for the functional assessment of muscles. On the other h...
Skeletal muscles generate force, enabling movement through a series of fast electro-mechanical activ...
Skeletal muscles generate force, enabling movement through a series of fast electro-mechanical activ...
Current methods to track the progression and evaluate treatment of muscular dystrophies are scarce. ...
Electromechanical delay (EMD) represents the time lag between muscle activation and muscle force pro...
International audienceUsing ultrasound we tested the utility of determining the relative contributio...
Objective. The study of human neuromechanical control at the motor unit (MU) level has predominantly...
Earlier experiments indicates that motor unit activity during isometric contractions can be imaged u...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
Electromechanical delay (EMD) is the time lag between muscle activation and force development. Using...
The central nervous system (CNS) controls skeletal muscles by the recruitment of motor units (MUs). ...
International audienceBackground: Electromechanical delay is the time lag between onsets of muscle a...
Electromyography and ultrasonography provide complementary information about electrophysiological an...
Electromyography (EMG) has been widely used for the functional assessment of muscles. On the other h...
Skeletal muscles generate force, enabling movement through a series of fast electro-mechanical activ...
Skeletal muscles generate force, enabling movement through a series of fast electro-mechanical activ...
Current methods to track the progression and evaluate treatment of muscular dystrophies are scarce. ...
Electromechanical delay (EMD) represents the time lag between muscle activation and muscle force pro...
International audienceUsing ultrasound we tested the utility of determining the relative contributio...
Objective. The study of human neuromechanical control at the motor unit (MU) level has predominantly...
Earlier experiments indicates that motor unit activity during isometric contractions can be imaged u...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
Electromechanical delay (EMD) is the time lag between muscle activation and force development. Using...
The central nervous system (CNS) controls skeletal muscles by the recruitment of motor units (MUs). ...
International audienceBackground: Electromechanical delay is the time lag between onsets of muscle a...
Electromyography and ultrasonography provide complementary information about electrophysiological an...
Electromyography (EMG) has been widely used for the functional assessment of muscles. On the other h...