Search results for "V-wave"

showing 3 items of 3 documents

Central Contribution to Electrically Induced Fatigue depends on Stimulation Frequency

2017

International audience; PURPOSE: This study analyzed the impact of several protocols of neuromuscular electrical stimulation (NMES), matched with a similar total torque-time integral, on muscle activation pathways and neuromuscular fatigue.METHODS: Ten young healthy participants (age: 24.6 +/- 4.2) performed 3 randomized NMES sessions on the triceps surae muscles with 20 Hz, 60 Hz or 100 Hz stimulation frequencies (pulse duration: 1 ms), with pulse amplitude (IES) set at 20 % of isometric maximal voluntary contraction (MVC). Muscle activity during NMES was assessed by means of the twitch, the soleus H-reflex and M wave responses evoked by single muscle stimulation at IES. Neuromuscular fati…

Malemedicine.medical_specialtyPhysical Therapy Sports Therapy and RehabilitationStimulationElectromyographylaw.inventionV-waveYoung Adult03 medical and health sciences0302 clinical medicinePhysical medicine and rehabilitationText miningRandomized controlled triallawHumansMedicineOrthopedics and Sports MedicineYoung adultMuscle Skeletalspinal excitabilityH-reflexMotor Neuronsmedicine.diagnostic_testElectromyographybusiness.industryMuscle activation030229 sport sciencesEvoked Potentials MotorElectric StimulationTorque[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Muscle Fatiguetriceps suraeFemalebusinessforce030217 neurology & neurosurgeryMuscle Contraction
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Modulation of H-reflex and V-wave responses during dynamic balance perturbations

2023

AbstractMotoneuron excitability is possible to measure using H-reflex and V-wave responses. However, it is not known how the motor control is organized, how the H-reflex and V-wave responses modulate and how repeatable these are during dynamic balance perturbations. To assess the repeatability, 16 participants (8 men, 8 women) went through two, identical measurement sessions with ~ 48 h intervals, where maximal isometric plantar flexion (IMVC) and dynamic balance perturbations in horizontal, anterior–posterior direction were performed. Soleus muscle (SOL) neural modulation during balance perturbations were measured at 40, 70, 100 and 130 ms after ankle movement by using both H-reflex and V-…

V-wavehermo-lihastoimintaelektromyografiaGeneral Neurosciencetasapainodynamic balancerefleksitdynamic conditiontasapainoaistineural modulationH-reflexmotoriikkaExperimental Brain Research
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Neural Adaptations to Strength Training

2018

Scientific study of strength training has revealed numerous physiological mechanisms that contribute to: (1) acute fatigue from a single strength training session and (2) chronic adaptation to repetitive and systematic strength training. Therefore, the purpose of this chapter is initially to discuss potential neural mechanisms that influence force production from the perspective of a single repetition. Thereafter, the chapter will highlight scientific evidence for candidate neural mechanisms that acutely limit force production during a single strength training session and long-term adaptations caused by strength training. For some of these potential neural mechanisms, there is strong scient…

lihasaktiivisuuskuormausStrength trainingeducationPerspective (graphical)voluntary activationcentral fatigueScientific evidenceEMGmotor unitfiring rateshort-term trainingstimulointiMuscle activityPsychologyv-waveScientific studyCognitive psychology
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