Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test
Background Cardiorespiratory fitness assessment is crucial for diagnosing health risks and assessing interventions. Direct measurement of maximum oxygen uptake (V̇O2 max) yields more objective and accurate results, but it is practical only in a laboratory setting. We therefore investigated whether a...
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PeerJ Inc.
2021-03-01
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| Online Access: | https://peerj.com/articles/10831.pdf |
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doaj-7f13a6fd7f084b64a32d13f119552d4e2021-03-17T15:05:07ZengPeerJ Inc.PeerJ2167-83592021-03-019e1083110.7717/peerj.10831Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step testYu-Chun Chung0Ching-Yu Huang1Huey-June Wu2Nai-Wen Kan3Chin-Shan Ho4Chi-Chang Huang5Hung-Ting Chen6Center of General Education, Taipei Medical University, Taipei, TaiwanService Systems Technology Center, Industrial Technology Research Institute, Hsinchu, TaiwanDepartment of Combat Sports and Chinese Martial Arts, Chinese Culture University, Taipei, TaiwanCenter of General Education, Taipei Medical University, Taipei, TaiwanGraduate Institute of Sports Science, National Taiwan Sport University, Taoyuan, TaiwanGraduate Institute of Sports Science, National Taiwan Sport University, Taoyuan, TaiwanPhysical Education Office, Ming Chuan University, Taipei, TaiwanBackground Cardiorespiratory fitness assessment is crucial for diagnosing health risks and assessing interventions. Direct measurement of maximum oxygen uptake (V̇O2 max) yields more objective and accurate results, but it is practical only in a laboratory setting. We therefore investigated whether a 3-min progressive knee-up and step (3MPKS) test can be used to estimate peak oxygen uptake in these settings. Method The data of 166 healthy adult participants were analyzed. We conducted a V̇O2 max test and a subsequent 3MPKS exercise test, in a balanced order, a week later. In a multivariate regression model, sex; age; relative V̇O2 max; body mass index (BMI); body fat percentage (BF); resting heart rate (HR0); and heart rates at the beginning as well as at the first, second, third, and fourth minutes (denoted by HR0, HR1, HR2, HR3, and HR4, respectively) during a step test were used as predictors. Moreover, R2 and standard error of estimate (SEE) were used to evaluate the accuracy of various body composition models in predicting V̇O2max. Results The predicted and actual V̇O2 max values were significantly correlated (BF% model: R2 = 0.624, SEE = 4.982; BMI model: R2 = 0.567, SEE = 5.153). The BF% model yielded more accurate predictions, and the model predictors were sex, age, BF%, HR0, ΔHR3−HR0, and ΔHR3−HR4. Conclusion In our study, involving Taiwanese adults, we constructed and verified a model to predict V̇O2 max, which indicates cardiorespiratory fitness. This model had the predictors sex, age, body composition, and heart rate changes during a step test. Our 3MPKS test has the potential to be widely used in epidemiological research to measure V̇O2 max and other health-related parameters.https://peerj.com/articles/10831.pdfAerobic ability 3-min Harvard step test Cardiovascular function Field tests |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Yu-Chun Chung Ching-Yu Huang Huey-June Wu Nai-Wen Kan Chin-Shan Ho Chi-Chang Huang Hung-Ting Chen |
| spellingShingle |
Yu-Chun Chung Ching-Yu Huang Huey-June Wu Nai-Wen Kan Chin-Shan Ho Chi-Chang Huang Hung-Ting Chen Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test PeerJ Aerobic ability 3-min Harvard step test Cardiovascular function Field tests |
| author_facet |
Yu-Chun Chung Ching-Yu Huang Huey-June Wu Nai-Wen Kan Chin-Shan Ho Chi-Chang Huang Hung-Ting Chen |
| author_sort |
Yu-Chun Chung |
| title |
Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test |
| title_short |
Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test |
| title_full |
Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test |
| title_fullStr |
Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test |
| title_full_unstemmed |
Predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test |
| title_sort |
predicting maximal oxygen uptake from a 3-minute progressive knee-ups and step test |
| publisher |
PeerJ Inc. |
| series |
PeerJ |
| issn |
2167-8359 |
| publishDate |
2021-03-01 |
| description |
Background Cardiorespiratory fitness assessment is crucial for diagnosing health risks and assessing interventions. Direct measurement of maximum oxygen uptake (V̇O2 max) yields more objective and accurate results, but it is practical only in a laboratory setting. We therefore investigated whether a 3-min progressive knee-up and step (3MPKS) test can be used to estimate peak oxygen uptake in these settings. Method The data of 166 healthy adult participants were analyzed. We conducted a V̇O2 max test and a subsequent 3MPKS exercise test, in a balanced order, a week later. In a multivariate regression model, sex; age; relative V̇O2 max; body mass index (BMI); body fat percentage (BF); resting heart rate (HR0); and heart rates at the beginning as well as at the first, second, third, and fourth minutes (denoted by HR0, HR1, HR2, HR3, and HR4, respectively) during a step test were used as predictors. Moreover, R2 and standard error of estimate (SEE) were used to evaluate the accuracy of various body composition models in predicting V̇O2max. Results The predicted and actual V̇O2 max values were significantly correlated (BF% model: R2 = 0.624, SEE = 4.982; BMI model: R2 = 0.567, SEE = 5.153). The BF% model yielded more accurate predictions, and the model predictors were sex, age, BF%, HR0, ΔHR3−HR0, and ΔHR3−HR4. Conclusion In our study, involving Taiwanese adults, we constructed and verified a model to predict V̇O2 max, which indicates cardiorespiratory fitness. This model had the predictors sex, age, body composition, and heart rate changes during a step test. Our 3MPKS test has the potential to be widely used in epidemiological research to measure V̇O2 max and other health-related parameters. |
| topic |
Aerobic ability 3-min Harvard step test Cardiovascular function Field tests |
| url |
https://peerj.com/articles/10831.pdf |
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