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RESEARCH PRODUCT
Motor Unit Firing Behaviour of Soleus Muscle in Isometric and Dynamic Contractions
Harri SelännePaavo V. KomiKaren SøgaardVesa LinnamoJ. KallioJanne Avelasubject
AdultMalemedicine.medical_specialtyContraction (grammar)Anatomy and PhysiologyDynamicBiophysicslcsh:MedicineElectromyographyIsometric exerciseConcentricPhysical medicine and rehabilitationDiagnostic MedicineSoleusIsometric ContractionmedicineEccentricHumansBiomechanicsIsometricta315lcsh:ScienceMuscle SkeletalBiologyMusculoskeletal SystemSoleus muscleMotor NeuronsClinical NeurophysiologyIntramuscularMultidisciplinarymedicine.diagnostic_testChemistryElectromyographyMotor unitPhysicslcsh:Rfood and beveragesAnatomymusculoskeletal systemMotor unitelektromyografiaTorqueMedicinelcsh:Qmedicine.symptomMuscle contractionMuscle ContractionResearch Articledescription
Introduction. Understanding the detailed control of human locomotion and balance can be improved, when individual motor units can be isolated and their firing rates followed in natural movement of large, fuctionally important muscles. For this reason the present study investigated the motor unit discharge rate (MUDR) in isometric and dynamic contractions of the soleus muscle. Methods: Eleven males performed isometric (10–100% MVC) and dynamic (10–40% MVC) plantar flexions. Intramuscular EMG was measured from Soleus with bipolar wire-electrodes and decomposed with custom built “Daisy” software. Results. The Soleus MUDR was significantly higher in concentric compared to isometric or eccentric contractions at all submaximal force levels (P<0.05). In isometric contractions MUDR increased up to 100% MVC. Conclusion: Motor unit discharge properties of a large plantarflexor can be measured in dynamic and maximal contractions. For a given torque output, MUDR is dependent upon contraction type, as set by the major mechanical differences between concentric and eccentric actions. peerReviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-07-04 |