Heart rate variability to assess ventilatory threshold in ski‐mountaineering

Cassirame, Johan; Tordi, Nicolás; Fabre, Nicolas; Duc, Sebastien; Durand, F.; Mourot, Laurent

doi:10.1080/17461391.2014.957729

Cited by 26 publications

(57 citation statements)

References 45 publications

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“…For the spectral analysis, a short-term Fourier transform was applied with a moving window of 64 s and time shift of 10 s (Cassirame et al, 2015). The high-frequency band was extended (>0Á15-0Á4 Hz to >0Á15-2 Hz) to consider spectral energy content resulting from increases in respiratory frequency during high-intensity exercise (Cottin et al, 2006a,b).…”

Section: Gas Analysismentioning

confidence: 99%

“…Based on the physiological mechanisms involving vagal withdrawal and the effects of hyperpnoea on high-frequency oscillations during high-intensity exercise, two techniques using HRV to indirectly detect both the VT and RCP have been investigated. The more complex of the two relies on the interaction between respiration frequency and autonomic innervation of the heart (Anosov et al, 2000;Cassirame et al, 2015;Cottin et al, 2006a,b;Mourot et al, 2014). However, recently it has been shown that both limb movement and respiration have the capacity to entrain within the power spectrum of the high-frequency band making its practicality questionable (Mendia-Iztueta et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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An investigation into the relationship between heart rate variability and the ventilatory threshold in healthy moderately trained males

Grannell

Vito

2017

Clin Physio Funct Imaging

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Section: Gas Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

An investigation into the relationship between heart rate variability and the ventilatory threshold in healthy moderately trained males

Grannell

Vito

2017

Clin Physio Funct Imaging

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“…Although sport specific performance diagnosis and test protocols have been developed for nearly every type of sport (e. g. running, cycling, swimming, rowing, climbing,...) [14], no established method of performance diagnosis presently exists for skimo. While some studies have tried to use heart rate variability during field tests [1,9] to gain training recommendations and thresholds, others have focused on energy expenditure [2] or speed and optimal slope gradients [2,5,7]. All previous laboratory tests have used either roller skis [6], maximal running tests [2,4] or mountain running tests (stepwise increased slope) [4], with roller skis representing the closest approximation to skimo.…”

Section: Introductionmentioning

confidence: 99%

Ski Mountaineering – Evaluation of a Sports Specific Performance Diagnosis

Schöffl

Pöppelmeier

Emmler

et al. 2018

Sportverletz Sportschaden

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Ski mountaineering (skimo) has recently gained popularity and established itself as a competition sport. It requires a specific training with a high hypoxic load. Although a variety of sport specific performance test protocols have been developed, a specific method for ski mountaineering (skimo) is pending. After the development of a sport specific ergometric protocol with recreational athletes in pre-tests a standard sport specific protocol was defined, concerning treadmill speed, slope and step test variables. This protocol was evaluated for its effectivity with members of the German national skimo team (6 male, 2 female). All athletes performed two spiroergometry test protocols, a standard bike test profile followed by sport specific spiroergometry. This skimo-specific test involved an incremental step test with skis on a treadmill, using a standard incline of 20° with an stepwise speed increase. Spiroergometry and blood lactate (BL) data were recorded and the first and second ventilatory thresholds (VT1 and VT2) were determined. All athletes could complete the test without any technical problems and reached cardiopulmonary exhaustion. The mean test break off BL was 9.98 ± 2.0 mmol/L for the bike test, and 9.28 ± 2.3 mmol/L for the skimo test. The heart rate at VT1 as a percentage of the maximum heart rate did not differ significantly between protocols. Heart rates at VT2 did not significantly differ between both protocols, but varied in both directions. In three athletes, VO2max was higher in the skimo tests than in the bike tests, while the remaining five athletes exhibited the opposite situation. VO2max did not differ significantly between skimo and bike tests (p = 0.35), but it varied in both directions. Motion analysis revealed motoric deficits in two cases. The study indicates that skimo and bike tests are not fully comparable. The skimo and bike test results vary with respect to the majority of test parameters and statistical findings, nevertheless these findings were not statistically significant. These differences were furthermore found to be inconsistent, which is the most valuable finding of the study. It can thus be concluded that a sport specific test is important for both optimal exercise testing and the development of training recommendations for skimo athletes.

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“…During submaximal exercise in apparently healthy subjects values as low as 6 ms have been reported . HRV analysis during exercise is also performed to determine ventilatory thresholds (Cassirame, et al, 2014;Mourot, et al, 2011). Initially, RRts were obtained from ECG recordings performed in laboratories or clinical environments and only ECG Holter monitoring was performed in an ambulatory setting.…”

Section: Discussionmentioning

confidence: 99%

Effects of R-R time series accuracy on heart rate variability indexes

Cassirame

Chevrolat²,

Mourot

2019

Mov Sport Sci/Sci Mot

Self Cite

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Our study aims to quantify the effect of inaccuracy in the R-R times series on heart rate variability (HRV) indexes. Starting from 75 series measured in supine, standing and submaximal exercise situations in 25 healthy male subjects, we generated 15 new R-R time series with accuracy from ±2 to 30 ms. HRV analyses was performed on the 1200 obtained series and compared with the results of the original series. The results showed that during supine, HRV indexes were moderately affected by inaccuracy up to ±30 ms. However, during standing, the indexes were affected to a greater degree and it was even more evident during exercise: in this later case significant difference in the root mean square of successive standard deviations (rMSSD), a commonly used parasympathetic index in sport sciences for both health and performance purposes, were observed when inaccuracy was equal or greater than 4 ms. Also, a relationship between inaccuracy and rMSSD was highlighted: the lower the rMSSD, the greater the error. Our study underscored the importance of the accuracy of R-R measurement for heart rate variability and provides recommendation regarding technology and measurement errors on final results. Résumé --Importance de la précision de la série des intervalles RR sur les indices de variabilité de fréquence cardiaque calculés. Notre étude avait pour but de quantifier l'effet de l'imprécision de la série des intervalles RR sur les indices de variabilité de la fréquence cardiaque (VFC) calculée ultérieurement. Partant de 75 séries mesurées en condition couché, debout et à l'exercice chez 25 hommes en bonne santé, 15 nouvelles séries (précision de ±2 à 30 ms) ont été générées. Des analyses de VFC ont été effectuées et les résultats comparés à la série originale. Couché, les indices de VFC n'étaient que modérément affectés, même pour des erreurs de 30 ms. Debout, les indices étaient plus affectés et cela a été encore plus évident durant l'exercice. Dans ce cas, des différences significatives dans l'indice parasympathique root mean square of successive standard deviations (rMSSD), couramment utilisé en sciences du sport, ont été observé pour des erreurs aussi basses que 4 ms. Ces résultats montrent que plus rMSSD est faible, plus grande est l'erreur générée. Notre étude montre donc l'importance du degré de précision avec lequel la série des intervalles RR pour effectuer une analyse de VFC a été obtenue, ce qui permet de dégager des recommandations pratiques en ce qui concerne les moyens technologiques utilisés et les niveaux d'erreurs acceptables.

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Heart rate variability to assess ventilatory threshold in ski‐mountaineering

Cited by 26 publications

References 45 publications

An investigation into the relationship between heart rate variability and the ventilatory threshold in healthy moderately trained males

An investigation into the relationship between heart rate variability and the ventilatory threshold in healthy moderately trained males

Ski Mountaineering – Evaluation of a Sports Specific Performance Diagnosis

Effects of R-R time series accuracy on heart rate variability indexes

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