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A motor unit-based model of muscle fatigue
Jim R. Potvin,
Andrew J. Fuglevand
Physiology
Brain Institute, Evelyn McKnight
Biomedical Engineering
Neuroscience - GIDP
Physiological Sciences - GIDP
Neuroscience
Research output
:
Contribution to journal
›
Article
›
peer-review
86
Scopus citations
Overview
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Keyphrases
Motor Unit
100%
Unit-based
100%
Muscle Fatigue
100%
Force Capacity
25%
Unit Force
25%
Real-world Application
12%
Collective Action
12%
Muscle Activity
12%
Skeletal muscle
12%
Firing Rate
12%
Population Model
12%
Time Rate
12%
Phenomenological Models
12%
Contractile Response
12%
Muscle Force
12%
Isometric Force
12%
Physiological Properties
12%
Voluntary Contraction
12%
Endurance Time
12%
Isometric Contraction
12%
Contraction Time
12%
Prolonged Activity
12%
Motor Unit Firing Rate
12%
Change Trajectories
12%
Power Capacity
12%
Biochemistry, Genetics and Molecular Biology
Muscle Fatigue
100%
Firing Rate
50%
Muscle Strength
50%
Skeletal Muscle
25%
Muscle Contraction
25%
Muscle Isometric Contraction
25%
Population Model
25%
Neuroscience
Motor Unit
100%
Firing Rate
22%
Skeletal Muscle
11%
Engineering
Target Level
50%