about
P1889
Factors influencing the estimates of correlation between motor unit activities in humans.High-density surface EMG decomposition allows for recording of motor unit discharge from proximal and distal flexion synergy muscles simultaneously in individuals with strokeCharacterization of In-Body to On-Body Wireless Radio Frequency Link for Upper Limb Prostheses.Amplitude cancellation of motor-unit action potentials in the surface electromyogram can be estimated with spike-triggered averaging.Detecting the unique representation of motor-unit action potentials in the surface electromyogramImpaired regulation post-stroke of motor unit firing behavior during volitional relaxation of knee extensor torque assessed using high density surface EMG decomposition.Accessing the neural drive to muscle and translation to neurorehabilitation technologies.Common synaptic input to motor neurons, motor unit synchronization, and force control.Limitations of the spike-triggered averaging for estimating motor unit twitch force: a theoretical analysis.Associations between Motor Unit Action Potential Parameters and Surface EMG Features.Principles of Motor Unit Physiology Evolve With Advances in Technology.Properties of the motor unit action potential shape in proximal and distal muscles of the upper limb in healthy and post-stroke individuals.Theoretical Model and Experimental Validation of the estimated proportions of common and independent input to motor neurons.Increased HCN channel driven inward rectification in benign cramp fasciculation syndrome.Tracking motor units longitudinally across experimental sessions with high-density surface electromyography.The optimal neural strategy for a stable motor task requires a compromise between level of muscle cocontraction and synaptic gain of afferent feedback.Correlation between discharge timings of pairs of motor units reveals the presence but not the proportion of common synaptic input to motor neurons.Differential Motor Unit Changes after Endurance or High-Intensity Interval Training.A human experimental model of episodic pain.Neural correlates of task-related changes in physiological tremor.Reciprocal inhibition between motor neurons of the tibialis anterior and triceps surae in humans.Surface EMG amplitude does not identify differences in neural drive to synergistic muscles.Ischemic Conditioning Increases Strength and Volitional Activation of Paretic Muscle in Chronic Stroke: A Pilot Study.Robust estimation of average twitch contraction forces of populations of motor units in humans.Multimodal BCI-mediated FES suppression of pathological tremor.Multi-channel intramuscular and surface EMG decomposition by convolutive blind source separation.The proportion of common synaptic input to motor neurons increases with an increase in net excitatory input.Power spectrum of the rectified EMG: when and why is rectification beneficial for identifying neural connectivity?Spatial correlation of high density EMG signals provides features robust to electrode number and shift in pattern recognition for myocontrol.Linear transmission of cortical oscillations to the neural drive to muscles is mediated by common projections to populations of motoneurons in humans.Experimental analysis of accuracy in the identification of motor unit spike trains from high-density surface EMG.Fluctuations in isometric muscle force can be described by one linear projection of low-frequency components of motor unit discharge rates.Estimation of muscle fiber conduction velocity with a spectral multidip approach.The human motor neuron pools receive a dominant slow-varying common synaptic input.Accurate and representative decoding of the neural drive to muscles in humans with multi-channel intramuscular thin-film electrodes.Estimating reflex responses in large populations of motor units by decomposition of the high-density surface electromyogram.The effective neural drive to muscles is the common synaptic input to motor neurons.Reply from Dario Farina, Francesco Negro and Ning JiangIdentification of common synaptic inputs to motor neurons from the rectified electromyogramHigh-density EMG E-Textile systems for the control of active prostheses
P50
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P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Francesco Negro
@ast
Francesco Negro
@en
Francesco Negro
@es
Francesco Negro
@nl
Francesco Negro
@sl
type
label
Francesco Negro
@ast
Francesco Negro
@en
Francesco Negro
@es
Francesco Negro
@nl
Francesco Negro
@sl
prefLabel
Francesco Negro
@ast
Francesco Negro
@en
Francesco Negro
@es
Francesco Negro
@nl
Francesco Negro
@sl
P1053
K-1345-2013
P106
P1153
35991441700
P1889
P21
P31
P3829
P496
0000-0002-9094-8932