Prediction of the Wingate anaerobic mechanical power outputs from a maximal incremental cardiopulmonary exercise stress test using machine-learning approach

The Wingate Anaerobic Test (WAnT) is a short-term maximal intensity cycle ergometer test, which provides anaerobic mechanical power output variables. Despite the physiological significance of the variables extracted from the WAnT, the test is very intense, and generally applies for athletes. Our goa...

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Bibliographic Details
Published in:PloS one 2019-03, Vol.14 (3), p.e0212199-e0212199
Main Authors: Leopold, Efrat, Navot-Mintzer, Dalya, Shargal, Eyal, Tsuk, Sharon, Tuller, Tamir, Scheinowitz, Mickey
Format: Article
Language:English
Subjects:
Adult
Algorithms
Anaerobic Threshold - physiology
Anaerobiosis - physiology
Athletes
Biology and Life Sciences
Data Analysis
Ergometry - methods
Exercise
Exercise Test - methods
Exercise tests
Female
Forecasting - methods
Health aspects
Humans
Machine Learning
Male
Medical tests
Medicine and Health Sciences
Physical Sciences
Physiological aspects
Research and Analysis Methods
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Summary:The Wingate Anaerobic Test (WAnT) is a short-term maximal intensity cycle ergometer test, which provides anaerobic mechanical power output variables. Despite the physiological significance of the variables extracted from the WAnT, the test is very intense, and generally applies for athletes. Our goal, in this paper, was to develop a new approach to predict the anaerobic mechanical power outputs using maximal incremental cardiopulmonary exercise stress test (CPET). We hypothesized that maximal incremental exercise stress test hold hidden information about the anaerobic components, which can be directly translated into mechanical power outputs. We therefore designed a computational model that included aerobic variables (features), and used a new computational \ predictive algorithm, which enabled the prediction of the anaerobic mechanical power outputs. We analyzed the chosen predicted features using clustering on a network. For peak power (PP) and mean power (MP) outputs, the equations included six features and four features, respectively. The combination of these features produced a prediction model of r = 0.94 and r = 0.9, respectively, on the validation set between the real and predicted PP/MP values (P< 0.001). The newly predictive model allows the accurate prediction of the anaerobic mechanical power outputs at high accuracy. The assessment of additional tests is desired for the development of a robust application for athletes, older individuals, and/or non-healthy populations.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0212199