2019
DOI: 10.1123/pes.2018-0175
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Sex-Specific Longitudinal Modeling of Youth Peak Oxygen Uptake

Abstract: Purpose: To investigate peak oxygen uptake (VO 2) in relation to sex, age, body mass, fat-free mass (FFM), maturity, and overweight status. Methods: Multiplicative, allometric models of 10-to 18-year-olds were founded on 1057 determinations of peakVO 2 supported by anthropometry and estimates of maturity status. Results: Baseline models with body mass controlled for showed age to exert a positive effect on peakVO 2 , with negative estimates for age 2 , sex, and a sex-by-age interaction. Sexspecific models show… Show more

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Cited by 49 publications
(95 citation statements)
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“…Interestingly, an inflated exponent was not observed for the girls with a similar within-study age range (study 10, Table 1 [8]), where the mass exponent was computed as b = 0.61. When added to the log-linear regression analysis here, and in contrast to the boys, age did not add significantly to the model; however, the addition of skinfold thickness did yield a significant, negative exponent as also observed in our recent longitudinal analysis of peakVO 2 in similar-aged girls (2).…”
Section: Variation In Mass Exponentssupporting
confidence: 67%
“…Interestingly, an inflated exponent was not observed for the girls with a similar within-study age range (study 10, Table 1 [8]), where the mass exponent was computed as b = 0.61. When added to the log-linear regression analysis here, and in contrast to the boys, age did not add significantly to the model; however, the addition of skinfold thickness did yield a significant, negative exponent as also observed in our recent longitudinal analysis of peakVO 2 in similar-aged girls (2).…”
Section: Variation In Mass Exponentssupporting
confidence: 67%
“…The 20mSRT has been proposed as a suitable and feasible health indicator for international surveillance in children and adolescents (90) and as a means of evaluating physical activity interventions (89). Others have argued that estimating/ predicting peakVO 2 from 20mSRT performance scores is untenable (10), the use of per-body mass ratio scaling is fallacious (10,168), the establishment of thresholds for cardiometabolic risk in children using current criteria is indefensible (9,10), and the use of field test performance estimates of peakVO 2 to evaluate physical activity interventions is specious (12). In this lively debate, Mintjens and colleagues' (107) thoughtful systematic review of longitudinal studies of the influence of CRF in childhood and adolescence on future cardiovascular risk factors is timely.…”
Section: Commentarymentioning
confidence: 99%
“…Unfortunately, the majority of papers that directly determined peakVO 2 only reported it in ratio with body mass. It has been demonstrated theoretically (169,170) and empirically (9,168) that ratio scaling has neither a sound scientific rationale nor statistical justification. Moreover it is age-and maturity-status-driven fat free mass, not body mass, which is the most powerful morphological influence on peakVO 2 (9).…”
Section: Commentarymentioning
confidence: 99%
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“…Perhaps they are just getting heavier and increasing body fat during adolescence-which is not the same as getting less fit! Why are overweight and obese youngsters so often classified as unfit using 20mSRT scores when rigorously determined and appropriately analyzed data suggest minimal aerobic fitness differences between normal and overweight children (2,11)? Perhaps this is a classic illustration of how ratio scaling underestimates fitness in heavier individuals?…”
mentioning
confidence: 99%