10 km running performance predicted by a multiple linear regression model with allometrically adjusted variables

Cesar C C Abad¹, Ronaldo V Barros², Romulo Bertuzzi², João F L Gagliardi², Adriano E Lima-Silva³, Mike I Lambert⁴, Flavio O Pires⁵

Affiliations

¹ Department of Physical Education, Senac University Centre, São Paulo, Brazil.
² School of Physical Education and Sport, University of São Paulo, Brazil.
³ Sports Science Research Group, Department of Physical Education and Sports Science CAV, Federal University of Pernambuco, Brazil.
⁴ Division of Exercise Science and Sports Medicine (ESSM), Department of Human Biology, Faculty of Health Sciences, University of Cape Town, South Africa.
⁵ Exercise Psychophysiology Research Group, School of Arts, Sciences and Humanities, University of São Paulo, Brazil.

PMID: 28149382
PMCID: PMC5260562
DOI: 10.1515/hukin-2015-0182

10 km running performance predicted by a multiple linear regression model with allometrically adjusted variables

Cesar C C Abad et al. J Hum Kinet. 2016.

. 2016 Jul 2:51:193-200.

doi: 10.1515/hukin-2015-0182. eCollection 2016 Jun 1.

Authors

Cesar C C Abad¹, Ronaldo V Barros², Romulo Bertuzzi², João F L Gagliardi², Adriano E Lima-Silva³, Mike I Lambert⁴, Flavio O Pires⁵

Affiliations

¹ Department of Physical Education, Senac University Centre, São Paulo, Brazil.
² School of Physical Education and Sport, University of São Paulo, Brazil.
³ Sports Science Research Group, Department of Physical Education and Sports Science CAV, Federal University of Pernambuco, Brazil.
⁴ Division of Exercise Science and Sports Medicine (ESSM), Department of Human Biology, Faculty of Health Sciences, University of Cape Town, South Africa.
⁵ Exercise Psychophysiology Research Group, School of Arts, Sciences and Humanities, University of São Paulo, Brazil.

PMID: 28149382
PMCID: PMC5260562
DOI: 10.1515/hukin-2015-0182

Abstract

The aim of this study was to verify the power of VO_2max, peak treadmill running velocity (PTV), and running economy (RE), unadjusted or allometrically adjusted, in predicting 10 km running performance. Eighteen male endurance runners performed: 1) an incremental test to exhaustion to determine VO_2max and PTV; 2) a constant submaximal run at 12 km·h^-1 on an outdoor track for RE determination; and 3) a 10 km running race. Unadjusted (VO_2max, PTV and RE) and adjusted variables (VO_2max^0.72, PTV^0.72 and RE^0.60) were investigated through independent multiple regression models to predict 10 km running race time. There were no significant correlations between 10 km running time and either the adjusted or unadjusted VO_2max. Significant correlations (p < 0.01) were found between 10 km running time and adjusted and unadjusted RE and PTV, providing models with effect size > 0.84 and power > 0.88. The allometrically adjusted predictive model was composed of PTV^0.72 and RE^0.60 and explained 83% of the variance in 10 km running time with a standard error of the estimate (SEE) of 1.5 min. The unadjusted model composed of a single PVT accounted for 72% of the variance in 10 km running time (SEE of 1.9 min). Both regression models provided powerful estimates of 10 km running time; however, the unadjusted PTV may provide an uncomplicated estimation.

Keywords: VO2max; allometry; peak of treadmill velocity; running economy.

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10 km running performance predicted by a multiple linear regression model with allometrically adjusted variables

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10 km running performance predicted by a multiple linear regression model with allometrically adjusted variables

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