Search results for "individual response"

showing 3 items of 3 documents

Monitoring training and recovery responses with heart rate measures during standardized warm-up in elite badminton players.

2020

\(\bf Purpose\) To investigate short-term training and recovery-related effects on heart rate during a standardized submaximal running test. \(\bf Methods\) Ten elite badminton players (7 females and 3 males) were monitored during a 12-week training period in preparation for the World Championships. Exercise heart rate (HRex) and perceived exertion were measured in response to a 5-min submaximal shuttle-run test during the morning session warm-up. This test was repeatedly performed on Mondays after 1–2 days of pronounced recovery (‘recovered’ state; reference condition) and on Fridays following 4 consecutive days of training (‘strained’ state). In addition, the serum concentration of creati…

MalePhysiologySocial SciencesSports SciencesRunningExercise PhysiologyHeart RateMedicine and Health SciencesUreaPsychologyPublic and Occupational Healthddc:796GeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)Creatine Kinasebepress|Life Sciences|PhysiologyOrganic CompoundsQRLife SciencesKinesiologySports ScienceChemistrySportRxiv|Sport and Exercise SciencePhysical SciencesSportRxiv|Sport and Exercise Science|Sport and Exercise PhysiologyMedicineFemaleathleteplayerPhysical Conditioning HumanResearch ArticleSportsAdultWarm-Up ExerciseSciencebepress|Life Sciences|KinesiologyPhysical ExertionCardiologyAthletic PerformancerecoveryYoung AdultHumansSportRxiv|Sport and Exercise Science|Strength and ConditioningSports and Exercise MedicineExerciseBehaviorBiological LocomotionOrganic ChemistryChemical CompoundsBiology and Life SciencesPhysical ActivityExercise ScienceCreatinemonitoringPhysical FitnessFOS: Biological sciencesRecreationfatigueindividual responsePloS one
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Heart Rate Variability Monitoring During Strength and High-Intensity Interval Training Overload Microcycles

2019

Objective: In two independent study arms, we determine the effects of strength training (ST) and high-intensity interval training (HIIT) overload on cardiac autonomic modulation by measuring heart rate (HR) and vagal heart rate variability (HRV). Methods: In the study, 37 well-trained athletes (ST: 7 female, 12 male; HIIT: 9 female, 9 male) were subjected to orthostatic tests (HR and HRV recordings) each day during a 4-day baseline period, a 6-day overload microcycle, and a 4-day recovery period. Discipline-specific performance was assessed before and 1 and 4 days after training. Results: Following ST overload, supine HR, and vagal HRV (Ln RMSSD) were clearly increased and decreased (small …

overreachingrecoverymultivariate analysisPhysiologyorthostatic testfatiguecardiac autonomic nervous systemresistance trainingindividual responseOriginal ResearchFrontiers in Physiology
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Heart Rate Variability Monitoring During Strength and High-Intensity Interval Training Overload Microcycles

2019

Objective: In two independent study arms, we determine the effects of strength training (ST) and high-intensity interval training (HIIT) overload on cardiac autonomic modulation by measuring heart rate (HR) and vagal heart rate variability (HRV).Methods: In the study, 37 well-trained athletes (ST: 7 female, 12 male; HIIT: 9 female, 9 male) were subjected to orthostatic tests (HR and HRV recordings) each day during a 4-day baseline period, a 6-day overload microcycle, and a 4-day recovery period. Discipline-specific performance was assessed before and 1 and 4 days after training.Results: Following ST overload, supine HR, and vagal HRV (Ln RMSSD) were clearly increased and decreased (small ef…

recoverymultivariate analysislcsh:QP1-981orthostatic testfatiguecardiac autonomic nervous systemindividual responselcsh:PhysiologyFrontiers in Physiology
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