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Transferability of Cardiopulmonary Parameters between Treadmill and Cycle Ergometer Testing in Male Triathletes—Prediction Formulae

Author

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  • Szczepan Wiecha

    (Department of Physical Education and Health, Faculty in Biala Podlaska, Jozef Pilsudski University of Physical Education in Warsaw, 21-500 Biala Podlaska, Poland)

  • Szymon Price

    (3rd Department of Internal Medicine and Cardiology, Medical University of Warsaw, 02-091 Warsaw, Poland)

  • Igor Cieśliński

    (Department of Physical Education and Health, Faculty in Biala Podlaska, Jozef Pilsudski University of Physical Education in Warsaw, 21-500 Biala Podlaska, Poland)

  • Przemysław Seweryn Kasiak

    (Students’ Scientific Group of Lifestyle Medicine, 3rd Department of Internal Medicine and Cardiology, Medical University of Warsaw, 02-091 Warsaw, Poland)

  • Łukasz Tota

    (Department of Physiology and Biochemistry, Faculty of Physical Education and Sport, University of Physical Education in Krakow, 31-571 Krakow, Poland)

  • Tadeusz Ambroży

    (Institute of Sports Sciences, University of Physical Education in Krakow, 31-541 Kraków, Poland)

  • Daniel Śliż

    (3rd Department of Internal Medicine and Cardiology, Medical University of Warsaw, 02-091 Warsaw, Poland
    Public Health School Centrum Medyczne Kształcenia Podyplomowego (CMKP), 01-826 Warsaw, Poland)

Abstract

Cardiopulmonary exercise testing (CPET) on a treadmill (TE) or cycle ergometry (CE) is a common method in sports diagnostics to assess athletes’ aerobic fitness and prescribe training. In a triathlon, the gold standard is performing both CE and TE CPET. The purpose of this research was to create models using CPET results from one modality to predict results for the other modality. A total of 152 male triathletes (age = 38.20 ± 9.53 year; BMI = 23.97 ± 2.10 kg·m −2 ) underwent CPET on TE and CE, preceded by body composition (BC) analysis. Speed, power, heart rate (HR), oxygen uptake (VO 2 ), respiratory exchange ratio (RER), ventilation (VE), respiratory frequency (fR), blood lactate concentration (LA) (at the anaerobic threshold (AT)), respiratory compensation point (RCP), and maximum exertion were measured. Random forests (RF) were used to find the variables with the highest importance, which were selected for multiple linear regression (MLR) models. Based on R 2 and RF variable selection, MLR equations in full, simplified, and the most simplified forms were created for VO 2AT , HR AT , VO 2RCP , HR RCP , VO 2max , and HR max for CE (R 2 = 0.46–0.78) and TE (R 2 = 0.59–0.80). By inputting only HR and power/speed into the RF, MLR models for practical HR calculation on TE and CE (both R 2 = 0.41–0.75) were created. BC had a significant impact on the majority of CPET parameters. CPET parameters can be accurately predicted between CE and TE testing. Maximal parameters are more predictable than submaximal. Only HR and speed/power from one testing modality could be used to predict HR for another. Created equations, combined with BC analysis, could be used as a method of choice in comprehensive sports diagnostics.

Suggested Citation

  • Szczepan Wiecha & Szymon Price & Igor Cieśliński & Przemysław Seweryn Kasiak & Łukasz Tota & Tadeusz Ambroży & Daniel Śliż, 2022. "Transferability of Cardiopulmonary Parameters between Treadmill and Cycle Ergometer Testing in Male Triathletes—Prediction Formulae," IJERPH, MDPI, vol. 19(3), pages 1-11, February.
  • Handle: RePEc:gam:jijerp:v:19:y:2022:i:3:p:1830-:d:743072
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    Cited by:

    1. Zacharias Papadakis & Michelle Etchebaster & Sergi Garcia-Retortillo, 2022. "Cardiorespiratory Coordination in Collegiate Rowing: A Network Approach to Cardiorespiratory Exercise Testing," IJERPH, MDPI, vol. 19(20), pages 1-11, October.

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