4.6 Article

Accuracy of Exercise-based Equations for Estimating Cardiorespiratory Fitness

Journal

MEDICINE AND SCIENCE IN SPORTS AND EXERCISE
Volume 53, Issue 1, Pages 74-82

Publisher

LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1249/MSS.0000000000002435

Keywords

PROGNOSIS; CARDIOPULMONARY EXERCISE TEST; MAXIMUM OXYGEN CONSUMPTION; EXERCISE TEST; FITNESS ALGORITHM

Categories

Funding

  1. American Heart Association [AIREA33930023]

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This study compared the accuracy of exercise-based prediction equations with directly measured CRF and found significant associations between the two, although the equations had a low degree of accuracy in categorizing participants into fitness tertiles. The results suggest the need to include cardiopulmonary measures with maximal exercise to accurately assess CRF within a clinical setting.
Equations are often used to predict cardiorespiratory fitness (CRF) from submaximal or maximal exercise tests. However, no study has comprehensively compared these exercise-based equations with directly measured CRF using data from a single, large cohort. Purpose This study aimed to compare the accuracy of exercise-based prediction equations with directly measured CRF and evaluate their ability to classify an individual's CRF. Methods The sample included 4871 tests from apparently healthy adults (38% female, age 44.4 +/- 12.3 yr (mean +/- SD)). Estimated CRF (eCRF) was determined from 2 nonexercise equations, 3 submaximal exercise equations, and 10 maximal exercise equations; all eCRF calculations were then compared with directly measured CRF, determined from a cardiopulmonary exercise test. Analysis included Pearson product-moment correlations, standard error of estimate values, intraclass correlation coefficients, Cohen kappa coefficients, and the Benjamini-Hochberg procedure to compare eCRF with directly measured CRF. Results All eCRF values from the prediction equations were associated with directly measured CRF (P < 0.01), with intraclass correlation coefficient estimates ranging from 0.07 to 0.89. Although significant agreement was found when using eCRF to categorize participants into fitness tertiles, submaximal exercise equations correctly classified an average of only 51% (range, 37%-58%) and maximal exercise equations correctly classified an average of only 59% (range, 43%-76%). Conclusions Despite significant associations between exercise-based prediction equations and directly measured CRF, the equations had a low degree of accuracy in categorizing participants into fitness tertiles, a key requirement when stratifying risk within a clinical setting. The present analysis highlights the limited accuracy of exercise-based determinations of eCRF and suggests the need to include cardiopulmonary measures with maximal exercise to accurately assess CRF within a clinical setting.

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