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长期运动员发展早期特定运动项目训练对体能、身体成分、认知及学业表现的影响

Effects of Sport-Specific Training during the Early Stages of Long-Term Athlete Development on Physical Fitness, Body Composition, Cognitive, and Academic Performances.

作者信息

Granacher Urs, Borde Ron

机构信息

Division of Training and Movement Sciences, Research Focus Cognition Sciences, University of Potsdam, Potsdam, Germany.

出版信息

Front Physiol. 2017 Oct 16;8:810. doi: 10.3389/fphys.2017.00810. eCollection 2017.

DOI:10.3389/fphys.2017.00810
PMID:29085304
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5650693/
Abstract

Several sports demand an early start into long-term athlete development (LTAD) because peak performances are achieved at a relatively young age (e.g., gymnastics). However, the challenging combination of high training volumes and academic demands may impede youth athletes' cognitive and academic performances. Thus, the aims of this study were to examine the effects of a 1-year sport-specific training and/or physical education on physical fitness, body composition, cognitive and academic performances in youth athletes and their non-athletic peers. Overall, 45 prepubertal fourth graders from a German elite sport school were enrolled in this study. Participating children were either youth athletes from an elite sports class ( = 20, age 9.5 ± 0.5 years) or age-matched peers from a regular class ( = 25, age 9.6 ± 0.6 years). Over the 1-year intervention period, the elite sports class conducted physical education and sport-specific training (i.e., gymnastics, swimming, soccer, bicycle motocross [BMX]) during school time while the regular class attended physical education only. Of note, BMX is a specialized form of cycling that is performed on motocross tracks and affords high technical skills. Before and after intervention, tests were performed for the assessment of physical fitness (speed [20-m sprint], agility [star agility run], muscle power [standing long jump], flexibility [stand-and-reach], endurance [6-min-run], balance [single-leg stance]), body composition (e.g., muscle mass), cognitive (d2-test) and academic performance (reading [ELFE 1-6], writing [HSP 4-5], calculating [DEMAT 4]). In addition, grades in German, English, Mathematics, and physical education were documented. At baseline, youth athletes showed better physical fitness performances ( < 0.05; = 0.70-2.16), less relative body fat mass, more relative skeletal muscle mass ( < 0.01; = 1.62-1.84), and similar cognitive and academic achievements compared to their non-athletic peers. Athletes' training volume amounted to 620 min/week over the 1-year period while their peers performed 155 min/week. After the intervention, significant differences were found in 6 out of 7 physical fitness tests ( < 0.05; = 0.75-1.40) and in the physical education grades ( < 0.01; = 2.36) in favor of the elite sports class. No significant between-group differences were found after the intervention in measures of body composition ( > 0.05; = 0.66-0.67), cognition and academics ( > 0.05; = 0.40-0.64). Our findings revealed no significant between-group differences in growth rate (deltas of pre-post-changes in body height and leg length). Our results revealed that a school-based 1-year sport-specific training in combination with physical education improved physical fitness but did not negatively affect cognitive and academic performances of youth athletes compared to their non-athletic peers. It is concluded that sport-specific training in combination with physical education promotes youth athletes' physical fitness development during LTAD and does not impede their cognitive and academic development.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3800/5650693/e079d95732d5/fphys-08-00810-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3800/5650693/1357ed21d3ca/fphys-08-00810-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3800/5650693/e079d95732d5/fphys-08-00810-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3800/5650693/1357ed21d3ca/fphys-08-00810-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3800/5650693/e079d95732d5/fphys-08-00810-g0002.jpg
摘要

一些运动项目要求运动员在长期运动员发展(LTAD)过程中尽早起步,因为这些项目在相对年轻的时候就能达到最佳成绩(例如体操)。然而,高强度训练量与学业要求这一具有挑战性的组合可能会妨碍青少年运动员的认知和学业表现。因此,本研究的目的是检验为期1年的专项运动训练和/或体育教育对青少年运动员及其非运动员同龄人在体能、身体成分、认知和学业表现方面的影响。总体而言,来自德国一所精英体育学校的45名青春期前四年级学生参与了本研究。参与研究的儿童要么是精英体育班的青少年运动员(n = 20,年龄9.5±0.5岁),要么是来自普通班级的年龄匹配的同龄人(n = 25,年龄9.6±0.6岁)。在为期1年的干预期内,精英体育班在上课时间进行体育教育和专项运动训练(即体操、游泳、足球、小轮车越野[BMX]),而普通班级只上体育课。值得注意的是,小轮车越野是一种在越野赛道上进行的特殊骑行形式,需要较高的技术技能。在干预前后,进行了测试以评估体能(速度[20米短跑]、敏捷性[星形敏捷跑]、肌肉力量[立定跳远]、柔韧性[站立前伸]、耐力[6分钟跑]、平衡[单腿站立])、身体成分(例如肌肉量)、认知(d2测试)和学业表现(阅读[ELFE 1 - 6]、写作[HSP 4 - 5]、计算[DEMAT 4])。此外,记录了德语、英语、数学和体育课程的成绩。在基线时,与非运动员同龄人相比,青少年运动员表现出更好的体能表现(p < 0.05;Cohen's d = 0.70 - 2.16)、更低的相对体脂率、更高的相对骨骼肌量(p < 0.01;Cohen's d = 1.62 - 1.84),以及相似的认知和学业成绩。运动员在1年期间的训练量为每周620分钟,而他们的同龄人每周进行155分钟。干预后,在7项体能测试中的6项(p < 0.05;Cohen's d = 0.75 - 1.40)以及体育课程成绩方面(p < 0.01;Cohen's d = 2.36)发现了有利于精英体育班的显著差异。干预后,在身体成分(p > 0.05;Cohen's d = 0.66 - 0.67)、认知和学业方面(p > 0.05;Cohen's d = 0.40 - 0.64)未发现组间显著差异。我们的研究结果显示,在生长速率方面(身高和腿长前后变化的差值)未发现组间显著差异。我们的结果表明,与非运动员同龄人相比,以学校为基础的为期1年的专项运动训练与体育教育相结合可提高体能,但不会对青少年运动员的认知和学业表现产生负面影响。研究得出结论,专项运动训练与体育教育相结合可促进青少年运动员在长期运动员发展过程中的体能发展,且不会妨碍他们的认知和学业发展。

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