Search results for "Force velocity"

showing 4 items of 4 documents

The influence of ageing on the force-velocity-power characteristics of human elbow flexor muscles.

2003

Abstract The purpose of this study was to quantify the effects of ageing on the maximal power ( P max ) of the elbow flexor muscles and to determine the impact of velocity on the loss of power in older people. Sixteen elderly subjects (7 men and 9 women, age range 61–78 years) and 17 young subjects (11 men and 6 women, age range 18–27 years) participated in this study. Maximal elbow flexions were performed against increasing inertia. The maximal force ( F max ), maximal shortening velocity ( V max ), P max , dynamic constants ( a , b and a / F max ), optimal force ( F opt ), optimal velocity ( V opt ) and V opt / V max were determined from Hill's equation. Myoelectrical activity (EMG) of th…

AdultMalemedicine.medical_specialtyAgingElbow flexorElbowElectromyographyBiochemistryEndocrinologyAge groupsInternal medicineElbow JointGeneticsmedicineHumansMuscle SkeletalMolecular BiologyMathematicsAgedmedicine.diagnostic_testElectromyographyCell BiologyAnatomyMiddle AgedBiomechanical Phenomenamedicine.anatomical_structureAgeingCardiologyFemaleSexmedicine.symptomOlder peopleForce velocityMuscle contractionMuscle ContractionExperimental gerontology
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Sprint mechanical variables in elite athletes: Are force-velocity profiles sport specific or individual?

2019

Purpose The main aim of this investigation was to quantify differences in sprint mechanical variables across sports and within each sport. Secondary aims were to quantify sex differences and relationships among the variables. Methods In this cross-sectional study of elite athletes, 235 women (23 ± 5 y and 65 ± 7 kg) and 431 men (23 ± 4 y and 80 ± 12 kg) from 23 different sports (including 128 medalists from World Championships and/or Olympic Games) were tested in a 40-m sprint at the Norwegian Olympic Training Center between 1995 and 2018. These were pre-existing data from quarterly or semi-annual testing that the athletes performed for training purposes. Anthropometric and speed-time sprin…

MaleEuropean PeoplePhysiologyVelocitySocial Sciencesmedicine.disease_causeRunningJumping0302 clinical medicineJumpingMedicine and Health SciencesHuman PerformancePsychologyEthnicitiesPublic and Occupational HealthSex CharacteristicsMultidisciplinaryAnthropometryPhysicsQRClassical MechanicsVDP::Medisinske Fag: 700::Idrettsmedisinske fag: 850Sports ScienceLarge sampleBiomechanical PhenomenaTraining centerSprintPhysical SciencesStrength TrainingMedicineFemaleAnatomyPsychologyForce velocityResearch ArticleSportsAdultmedicine.medical_specialtyStrength trainingNorwegian PeopleScienceAthletic Performance03 medical and health sciencesMotionPhysical medicine and rehabilitationmedicineHumansElite athletesMuscle StrengthSports and Exercise MedicineExerciseBehaviorBiological LocomotionBiology and Life Sciences030229 sport sciencesPhysical ActivityAnthropometryCross-Sectional StudiesPhysical FitnessAthletesPeople and PlacesRecreationPopulation Groupings030217 neurology & neurosurgeryPLoS ONE
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Should we individualize training based on force-velocity profiling to improve physical performance in athletes?

2021

The present study aimed to examine the effectiveness of an individualized training program based on force-velocity (FV) profiling on jumping, sprinting, strength, and power in athletes. Forty national level team sport athletes (20 ± 4years, 83 ± 13 kg) from ice-hockey, handball, and soccer completed a 10-week training intervention. A theoretical optimal squat jump (SJ)-FV-profile was calculated from SJ with five different loads (0, 20, 40, 60, and 80 kg). Based on their initial FV-profile, athletes were randomized to train toward, away, or irrespective (balanced training) of their initial theoretical optimal FV-profile. The training content was matched between groups in terms of set x repet…

Malemedicine.medical_specialtyTeam sportStrength trainingPhysical Therapy Sports Therapy and RehabilitationSquatjumpingAthletic Performancemedicine.disease_causeRunningYoung AdultJumpingmedicinestrength trainingHumansOrthopedics and Sports MedicineMuscle StrengthMathematicsLegbiologyAthletesbiology.organism_classificationVDP::Medisinske Fag: 700::Idrettsmedisinske fag: 850SprintsprintingPhysical performancePhysical therapyExercise Testhuman activities:Samfunnsvitenskap: 200::Samfunnsvitenskapelige idrettsfag: 330 [VDP]Force velocityperformancePhysical Conditioning HumanScandinavian journal of medicinescience in sportsREFERENCES
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Individual Sprint Force-Velocity Profile Adaptations to In-Season Assisted and Resisted Velocity-Based Training in Professional Rugby

2020

We tested the hypothesis that the degree of adaptation to highly focused sprint training at opposite ends of the sprint Force-Velocity (FV) spectrum would be associated with initial sprint FV profile in rugby athletes. Training-induced changes in sprint FV profiles were computed before and after an eight-week in-season resisted or assisted sprint training protocol, including a three-week taper. Professional male rugby players (age: 18.9 &plusmn

medicine.medical_specialtyBody heighteducationhorizontal forcePhysical Therapy Sports Therapy and RehabilitationArticle03 medical and health scienceslcsh:GV557-1198.9950302 clinical medicinePhysical medicine and rehabilitationHorizontal forcemedicinerugbyvoimantuotto (fysiologia)Orthopedics and Sports MedicineoverspeedMathematicslcsh:SportsbiologyAthletesmusculoskeletal neural and ocular physiologyResistance training030229 sport sciencesbiology.organism_classificationpikajuoksuSprint trainingSprintsprintingvoimaharjoitteluresistance traininghuman activities030217 neurology & neurosurgeryForce velocityvelocity-based trainingSports
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