儿童和成人高强度间歇运动过程中骨骼肌磷酸肌酸浓度的变化。

Changes in phosphocreatine concentration of skeletal muscle during high-intensity intermittent exercise in children and adults.

机构信息

Department of Training and Exercise Science, Faculty of Sport Science, Ruhr-University Bochum, Gesundheitscampus Nord Haus Nr. 10, 44780, Bochum, Germany,

出版信息

Eur J Appl Physiol. 2013 Nov;113(11):2769-79. doi: 10.1007/s00421-013-2712-x. Epub 2013 Aug 31.

DOI:10.1007/s00421-013-2712-x

PMID:23995672

Abstract

PURPOSE

The aim of the present study was to test the hypotheses that a greater oxidative capacity in children results in a lower phosphocreatine (PCr) depletion, a faster PCr resynthesis and a lower muscle acidification during high-intensity intermittent exercise compared to adults.

METHODS

Sixteen children (9.4 ± 0.5 years) and 16 adults (26.1 ± 0.3 years) completed a protocol consisting of a dynamic plantar flexion (10 bouts of 30-s exercise at 25 % of one repetition maximum separated by 20-s recovery), followed by 10 min of passive recovery. Changes of PCr, ATP, inorganic phosphate, and phosphomonoesters were measured by means of (31)Phosphorous-magnetic resonance spectroscopy during and post-exercise.

RESULTS

Average PCr (percentage of [PCr] at initial rest (%[PCr]i)) at the end of the exercise (adults 17 ± 12 %[PCr]i, children 38 ± 17 %[PCr]i, P < 0.01) and recovery periods (adults 37 ± 14 %[PCr]i, children 57 ± 17 %[PCr]i, P < 0.01) was significantly lower in adults compared to children, induced by a stronger PCr decrease during the first exercise interval (adults -73 ± 10 %[PCr]i, children -55 ± 15 %[PCr]i, P < 0.01). End-exercise pH was significantly higher in children compared to adults (children 6.90 + 0.20, -0.14; adults 6.67 + 0.23, -0.15, P < 0.05).

CONCLUSIONS

From our results we suggest relatively higher rates of oxidative ATP formation in children's muscle for covering the ATP demand of high-intensity intermittent exercise compared to adults, enabling children to begin each exercise interval with significantly higher PCr concentrations and leading to an overall lower muscle acidification.

摘要

目的

本研究旨在验证以下假设：与成年人相比，儿童具有更高的氧化能力，这将导致其在高强度间歇运动中经历更低的磷酸肌酸（PCr）耗竭、更快的 PCr 再合成以及更低的肌肉酸化。

方法

16 名儿童（9.4±0.5 岁）和 16 名成年人（26.1±0.3 岁）完成了一项方案，包括足底屈肌的动态收缩（25%最大重复次数 1 次的 10 个 30 秒运动回合，间隔 20 秒恢复期），随后进行 10 分钟的被动恢复期。通过（31）磷磁共振波谱技术在运动中和运动后测量 PCr、ATP、无机磷和单磷酸酯的变化。

结果

运动结束时（成年人 17±12%[PCr]i，儿童 38±17%[PCr]i，P<0.01）和恢复期（成年人 37±14%[PCr]i，儿童 57±17%[PCr]i，P<0.01）的平均 PCr（初始休息时的[PCr]百分比（%[PCr]i））在成年人中显著低于儿童，这是由于在第一个运动间隔中 PCr 减少更强（成年人-73±10%[PCr]i，儿童-55±15%[PCr]i，P<0.01）。儿童的运动结束时 pH 值显著高于成年人（儿童 6.90+0.20，-0.14；成年人 6.67+0.23，-0.15，P<0.05）。

结论

根据我们的结果，我们建议儿童肌肉中相对较高的氧化型 ATP 生成率可用于满足高强度间歇运动的 ATP 需求，这使得儿童在每个运动间隔开始时具有更高的 PCr 浓度，并导致整体更低的肌肉酸化。

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儿童和成人高强度间歇运动过程中骨骼肌磷酸肌酸浓度的变化。

Changes in phosphocreatine concentration of skeletal muscle during high-intensity intermittent exercise in children and adults.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

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方法

结果

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