The central nervous system (CNS) controls skeletal muscles by the recruitment of motor units (MUs). Understanding MU function is critical in the diagnosis of neuromuscular diseases, exercise physiology and sports, and rehabilitation medicine. Recording and analyzing the MUs’ electrical depolarization is the basis for state-of-the-art methods. Ultrafast ultrasound is a method that has the potential to study MUs because of the electrical depolarizations and consequent mechanical twitches. In this study, we evaluate if single MUs and their mechanical twitches can be identified using ultrafast ultrasound imaging of voluntary contractions. We compared decomposed spatio-temporal components of ultrasound image sequences against the gold standard n...
Skeletal muscles generate force, enabling movement through a series of fast electro-mechanical activ...
Electromyography and ultrasonography provide complementary information about electrophysiological an...
Skeletal muscles are functionally regulated by populations of so-called motor units (MUs). An MU com...
The central nervous system (CNS) controls skeletal muscles by the recruitment of motor units (MUs). ...
The central nervous system controls human force production by successive recruitment of motor units ...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
The smallest voluntarily controlled structure of the human body is the motor unit (MU), comprised of...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
Skeletal muscle is organized in motor units, each comprising a motor neuron and all its connected mu...
Earlier experiments indicates that motor unit activity during isometric contractions can be imaged u...
Objective. The study of human neuromechanical control at the motor unit (MU) level has predominantly...
Objective: Ultrafast ultrasound (UUS) imaging has been used to detect intramuscular mechanical dynam...
Abstract—Skeletal muscle is organized in motor units, each comprising a motor neuron and all its con...
During a voluntary contraction, motor units (MUs) fire a train of action potentials, causing summati...
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...
Electromyography and ultrasonography provide complementary information about electrophysiological an...
Skeletal muscles are functionally regulated by populations of so-called motor units (MUs). An MU com...
The central nervous system (CNS) controls skeletal muscles by the recruitment of motor units (MUs). ...
The central nervous system controls human force production by successive recruitment of motor units ...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
The smallest voluntarily controlled structure of the human body is the motor unit (MU), comprised of...
The central nervous system coordinates movement through forces generated by motor units (MUs) in ske...
Skeletal muscle is organized in motor units, each comprising a motor neuron and all its connected mu...
Earlier experiments indicates that motor unit activity during isometric contractions can be imaged u...
Objective. The study of human neuromechanical control at the motor unit (MU) level has predominantly...
Objective: Ultrafast ultrasound (UUS) imaging has been used to detect intramuscular mechanical dynam...
Abstract—Skeletal muscle is organized in motor units, each comprising a motor neuron and all its con...
During a voluntary contraction, motor units (MUs) fire a train of action potentials, causing summati...
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...
Electromyography and ultrasonography provide complementary information about electrophysiological an...
Skeletal muscles are functionally regulated by populations of so-called motor units (MUs). An MU com...