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Validity and reproducibility of a new treadmill protocol: the Fitkids Treadmill Test.

Kotte, E.M.W., Groot, J.F. de, Bongers, B.C., Winkler, A.M.F., Takken, T. Validity and reproducibility of a new treadmill protocol: the Fitkids Treadmill Test. Medicine and Science in Sports and Exercise: 2015, 47(10), p. 2241-2247.
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Purpose
This study aimed to investigate the validity and reproducibility of a new treadmill protocol in healthy children and adolescents: the Fitkids Treadmill Test (FTT).

Methods
Sixty-eight healthy children and adolescents (6-18 yr) were randomly divided into a validity group (14 boys and 20 girls; mean ± SD age, 12.9 ± 3.6 yr) that performed the FTT and Bruce protocol, both with respiratory gas analysis within 2 wk, and a reproducibility group (19 boys and 15 girls; mean ± SD age, 13.5 ± 3.5 yr) that performed the FTT twice within 2 wk. A subgroup of 21 participants within the reproducibility group performed both FTT with respiratory gas analysis. Time to exhaustion (TTE) was the main outcome of the FTT.

Results
V˙O2peak measured during the FTT showed excellent correlation with V˙O2peak measured during the Bruce protocol (r = 0.90; P < 0.01). Backward multiple regression analysis provided the following prediction equations for V˙O2peak (L·min) for boys and girls, respectively: V˙O2peak FTT = -0.748 + (0.117 × TTEFTT) + (0.032 × body mass) + 0.263, and V˙O2peak FTT = -0.748 + (0.117 × TTEFTT) + (0.032 × body mass) [R = 0.935; SEE = 0.256 L·min]. Cross-validation of the regression model showed an R value of 0.76. Reliability statistics for the FTT showed an intraclass correlation coefficient of 0.985 (95% confidence interval, 0.971-0.993; P < 0.001) for TTE. Bland-Altman analysis showed a mean bias of -0.07 min, with limits of agreement between +1.30 and -1.43 min.

Conclusions
Results suggest that the FTT is a useful treadmill protocol with good validity and reproducibility in healthy children and adolescents. Exercise performance on the FTT and body mass can be used to adequately predict V˙O2peak when respiratory gas analysis is not available. (aut. ref.)