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Relative contribution of altered neuromuscular factors to muscle activation-force relationships following chronic stroke: A simulation study
Jongsang Son
, William Zev Rymer
Bio-Medical Engineering
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peer-review
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Scopus citations
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Dive into the research topics of 'Relative contribution of altered neuromuscular factors to muscle activation-force relationships following chronic stroke: A simulation study'. Together they form a unique fingerprint.
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Keyphrases
Simulation Study
100%
Relative Contribution
100%
Chronic Stroke
100%
Muscle Activation
100%
Activation Force
100%
Neuromuscular Factor
100%
Voluntary Activation
50%
Maximum Force
33%
Force-generating Capacity
33%
Activation Capacity
33%
EMG-force
33%
Monte Carlo Simulation
16%
Strong Correlation
16%
Monte Carlo Simulation Method
16%
Medial Gastrocnemius
16%
Muscle Activation Patterns
16%
Plantar
16%
Ankle Joint Angle
16%
Hill Model
16%
Musculotendon Length
16%
Over Force
16%
Muscle Mechanical Properties
16%
Muscle Force Production
16%
Musculotendon
16%
Nursing and Health Professions
Electromyogram
100%
Monte Carlo Method
100%
Muscle Strength
50%
Neuroscience
Neuromuscular
100%
Electromyography
50%
Biochemistry, Genetics and Molecular Biology
Muscle Strength
100%