Stability of Running Economy in Young Children

Dj, Keefer; Tseh, Wayland; Jl, Caputo; Is, Craig; Martin, Philip E.; Dw, Morgan

doi:10.1055/s-2000-8486

Cited by 6 publications

(3 citation statements)

References 10 publications

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“…The between-day stability of oxygen cost has previously been quantified in six-year-old children (Keefer et al, 2000); however, this is the first study to show high-levels of between-test reliability in adolescent runners who are engaged in intensive training regimens. Training status appears to be an important influence in the degree of variability observed in running economy (Brisswalter & Legros, 1994).…”

Section: Discussionmentioning

confidence: 91%

“…Oxygen cost is an important determinant of distance running performance and reliability indices in the present study (ICC: 0.88–0.90, TE: 1.81–2.00%) are similar to those reported elsewhere for well‐trained (1.3%), highly trained (1.8%) and elite (2.4%) endurance runners (Morgan et al., 1991; Pereira & Freedson, 1997; Saunders et al., 2004). The between‐day stability of oxygen cost has previously been quantified in six‐year‐old children (Keefer et al., 2000); however, this is the first study to show high‐levels of between‐test reliability in adolescent runners who are engaged in intensive training regimens. Training status appears to be an important influence in the degree of variability observed in running economy (Brisswalter & Legros, 1994).…”

Section: Discussionmentioning

confidence: 98%

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Test–retest reliability of physiological parameters in elite junior distance runners following allometric scaling

Blagrove

Howatson

Hayes

2017

European Journal of Sport Science

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This study aimed to quantify the intra-individual reliability of a number of physiological variables in a group of national and international young distance runners. Sixteen (8 male, 8 female) participants (16.7 ± 1.4 years) performed a submaximal incremental running assessment followed by a maximal running test, on two occasions separated by no more than seven days. Maximal oxygen uptake (V̇O), speed at V̇O (km h), running economy and speed and heart rate (HR) at fixed blood lactate concentrations were determined. V̇O and running economy were scaled for differences in body mass using a power exponent derived from a larger cohort of young runners (n = 42). Running economy was expressed as oxygen cost and energy cost at the speed associated with lactate turnpoint (LTP) and the two speeds prior to LTP. Results of analysis of variance revealed an absence of systematic bias between trials. Reliability indices showed a high level of reproducibility across all parameters (typical error [TE] ≤2%; intra-class correlation coefficient >0.8; effect size <0.6). Expressing running economy as energy cost appears to provide superior reliability than using oxygen cost (TE ∼1.5% vs. ∼2%). Blood lactate and HR were liable to daily fluctuations of 0.14-0.22 mmol L and 4-5 beats min respectively. The minimum detectable change values (95% confidence) for each parameter are also reported. Exercise physiologists can be confident that measurement of important physiological determinants of distance running performance are highly reproducible in elite junior runners.

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Section: Discussionmentioning

confidence: 91%

Section: Discussionmentioning

confidence: 98%

Test–retest reliability of physiological parameters in elite junior distance runners following allometric scaling

Blagrove

Howatson

Hayes

2017

European Journal of Sport Science

View full text Add to dashboard Cite

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“…Atualmente existe uma limitação de estudos sobre os efeitos do exercício físico e do treinamento desportivo sobre o metabolismo das crianças e adolescentes [1][2][3][4][5][6][7][8][9][10][11][12]. Mais especifi camente no futebol, que é um dos esportes mais populares do mundo [13], praticado por homens, mulheres e crianças com diferentes níveis de desempenho [14], a maioria dos estudos com crianças são referentes à força e velocidade [15][16][17], padrão de atividade física durante o jogo [18,19] e consumo máximo de oxigênio (VO 2máx ) [18,[20][21][22][23][24].…”

Section: Introductionunclassified

Aspectos físicos e fisiológicos do jovem jogador de futebol

Cunha¹

2009

Rev Bras Fisiol Exerc

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O futebol é um dos esportes mais populares do mundo e seu desempenho depende de vários aspectos, como os fatores técnicos, táticos, físicos, fisiológicos e psicológicos. Durante uma partida de futebol, os jogadores percorrem em média 10 km, sendo a corrida a atividade predominante, mas exercícios de explosão como sprints, saltos, marcação e chute são importantes para o desempenho no futebol. A intensidade de trabalho durante uma partida de futebol é muito próxima do limiar anaeróbio (LAn). Os valores de LAn em jovens jogadores de futebol são compreendidos entre 80-90% da FCmáx ou entre 75-90% do VO2máx. Tradicionalmente, jovens jogadores de futebol possuem valores de VO2máx inferiores a 60 ml.kg-1.min-1, estes valores podem ser influenciados pela posição tática, tempo de treinamento e pelo processo de maturação biológica. A maturação biológica tem um impacto relevante no processo de detecção de talentos, pois é relacionada com o desempenho técnico e físico, no qual atletas mais avançados no processo maturacional possuem maiores níveis de força, potência e capacidade aeróbia em relação aos indivíduos menos avançados.Palavras-chave: futebol, limiar anaeróbio, consumo máximo de oxigênio.

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Comparison between preferred and energetically optimal transition speeds in adolescents

Tseh

Bennett

Caputo

et al. 2002

European Journal of Applied Physiology

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The primary focus of this investigation was to determine whether differences exist between the preferred transition speed (PTS) and the energetically optimal transition speed (EOTS) in a group of adolescents. Ten 11-, ten 13-, and ten 15-year-olds completed four testing sessions. Following 30 min of accommodation to treadmill walking and running (session 1), the PTS between walking and running was identified in session 2. In session 3, subjects walked on a level treadmill at 70%, 80%, 90%, 100%, and 110% of respective PTS, while in session 4, children ran on a level treadmill at 90%, 100%, 110%, 120%, and 130% of respective PTS. During the last 2 min of each 5-min walking and running bout, expired gas samples were collected in a meteorological balloon and analyzed to calculate VO2 and the EOTS between walking and running. Data analyses revealed that mean EOTS was significantly higher than mean PTS within each age group. Furthermore, when subjects changed gaits, the aerobic demand needed to run at the PTS was not lower than the VO2 measured while walking at the PTS. A moderately strong positive coefficient (r = 0.71) between leg length and PTS was also observed. Taken together, these data suggest factors other than govern the walk-run transition in adolescent boys and girls.

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Stability of Running Economy in Young Children

Cited by 6 publications

References 10 publications

Test–retest reliability of physiological parameters in elite junior distance runners following allometric scaling

Test–retest reliability of physiological parameters in elite junior distance runners following allometric scaling

Aspectos físicos e fisiológicos do jovem jogador de futebol

Comparison between preferred and energetically optimal transition speeds in adolescents

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Stability of Running Economy in Young Children

Cited by 6 publications

References 10 publications

Test–retest reliability of physiological parameters in elite junior distance runners following allometric scaling

Test–retest reliability of physiological parameters in elite junior distance runners following allometric scaling

Aspectos fí­sicos e fisiológicos do jovem jogador de futebol

Comparison between preferred and energetically optimal transition speeds in adolescents

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Resources

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Aspectos físicos e fisiológicos do jovem jogador de futebol