目的 运用Meta分析方法探索有氧运动与儿童认知的关系,为有氧运动和儿童认知的关系提供借鉴。方法 通过检索中国知网、万方、维普、PubMed以及Web of Science等中英文数据库,筛选2011年1月—2021年12月关于有氧运动与儿童认知的随机对照试验研究。根据文献的纳入和排除标准,纳入较高质量的文献,使用PEDro量表对文献质量进行评估。使用Revman5.4和Stata12软件对纳入文献进行Meta分析,根据异质性检验结果选择随机效应模型或固定效应模型,计算合并SMD和95%CI,评估发表偏倚。结果 共纳入11篇文献,包括随机对照试验(n=10)和准实验设计(n=1)两种,共计2 052例被试。有氧运动可以提高儿童的注意(SMD为0.97,95%CI为0.34~1.61,Z分数为2.99,P=0.003),及高级认知执行功能-抑制控制(SMD为0.59,95%CI为0.07~1.10,Z分数为2.51,P=0.01),差异有统计学意义(P<0.05);而对工作记忆和认知灵活性的影响差异无统计学意义(P>0.05)。结论 有氧运动可以改善儿童的认知功能,但是对执行功能的子成分-抑制控制功能具有选择性影响。
Abstract
Objective To explore the relationship between aerobic exercise and cognition of children by Meta-analysis, so as to provide new orientation for researches on this field. Methods Randomized controlled trial studies on aerobic exercise and children's cognition published from January 2011 to December 2021 were retrieved by searching CNKI, Wanfang, VIP, PubMed and Web of Science databases. According to the inclusion and exclusion criteria of the literature, the quality of the literature was evaluated using the PEDro scale. Then literature with high quality was included. Revman5.4 and Stata12 software were used for Meta-analysis of the included literature. Random effect model or fixed effect model were selected according to heterogeneity test results.The SMD value and 95%CI were calculated and publication bias was assessed. Results A total of 2 052 subjects were included in 11 articles, including randomized controlled trials (n=10) and quasi-experimental designs (n=1). Aerobic exercise can significantly improve children's attention (SMD=0.97, 95%CI:0.34 - 1.61, Z=2.99, P=0.003), and inhibition control, the sub-component of executive function (SMD=0.59, 95%CI:0.07 - 1.10, Z=2.51, P=0.01). However, it had no significant influence on working memory and cognition flexibility (P>0.05). Conclusion Aerobic exercise can significantly improve the cognitive function of children, but it has a selective influence on inhibition control, the sub-component of the execution function.
关键词
有氧运动 /
儿童 /
认知 /
Meta分析
Key words
aerobic exercise /
children /
cognition /
Meta-analysis
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参考文献
[1] 蒋长好,陈婷婷. 身体活动对情绪的影响及其脑机制[J]. 心理科学进展, 2014,22(12): 1889-1898.
[2] 季建林,叶尘宇. 行为决定健康: 改变不良行为方式,提高生活质量[J]. 中华行为医学与脑科学杂志, 2020, 29(9): 769-773.
[3] Latorre-Román PA, Mora-López D, García-Pinillos F. Effects of a physical activity programme in the school setting on physical fitness in preschool children[J]. Child Care Health Dev, 2018, 44(3): 427-432.
[4] Paluska SA, Schwenk TL. Physical activity and mental health: Current concepts[J]. Sports Med, 2000, 29(3): 167-180.
[5] Mikkelsen K,Stojanovska L, Polenakovic M, et al. Exercise and mental health[J]. Maturitas, 2017, 106: 48-56.
[6] Etnier JL, Salazar W, Landers DM, et al. The influence of physical fitness and exercise upon cognitive functioning: A meta-analysis[J]. J Sport Exerc Psychol, 1997, 19(3): 249-277.
[7] Alesi M, Bianco A, Luppina G, et al. Improving children's coordinative skills and executive functions:The effects of a football exercise program[J]. Percept Mot Skills, 2016, 122(1): 27-46.
[8] Etnier J, Labban JD, Piepmeier A, et al. Effects of an acute bout of exercise on memory in 6th grade children[J]. Pediatr Exerc Sci, 2014, 26(3): 250-258.
[9] Augustijn M, D'Hondt E, Leemans A, et al. Weight loss, behavioral change, and structural neuroplasticity in children with obesity through a multidisciplinary treatment program[J]. Hum Brain Mapp, 2019, 40(1): 137-150.
[10] Cashin AG,Mcauley JH. Clinimetrics: Physiotherapy Evidence Database (PEDro) Scale[J]. J Physiother, 2020, 66(1): 59.
[11] Kulinna PH, Stylianou M, Dyson B, et al. The Effect of an authentic acute physical education session of dance on elementary students' selective attention[J]. Biomed Res Int, 2018, 2018: 8790283.
[12] Huang CJ, Tu HY, Hsueh MC, et al.Effects of acute aerobic exercise on executive function in children with and without learning disability:A randomized controlled trial[J]. Adapt Phys Act Q, 2020, 37(4): 404-422.
[13] Schmidt M, Egger F,Conzelmann A. Delayed positive effects of an acute bout of coordinative exercise on children's attention[J]. Percept Mot Skills, 2015,121(2): 431-446.
[14] Chou C, Chen K, Huang M, et al. Can movement games enhance executive function in overweight children? A randomized controlled trial[J]. J Teach Phys Educ, 2020, 39(4): 527-535.
[15] Gallotta MC, Emerenziani GP, Iazzoni S, et al. Impacts of coordinative training on normal weight and overweight/obese children's attentional performance[J]. Front Hum Neurosci, 2015, 9: 577.
[16] Gall S, Adams L, Joubert N, et al. Effect of a 20-week physical activity intervention on selective attention and academic performance in children living in disadvantaged neighborhoods: A cluster randomized control trial[J].PloS One, 2018, 13(11): e0206908.
[17] Hillman CH, Pontifex MB, Castelli DM, et al. Effects of theFITKids randomized controlled trial on executive control and brain function[J]. Pediatrics, 2014,134(4): e1063-e1071.
[18] Kamio K, Pontifex MB, O'Leary KC, et al. The effects of an afterschool physical activity program on working memory in preadolescent children[J]. Dev Sci, 2011, 14(5): 1046-1058.
[19] Moreau D, Kirk IJ,Waldie KE. High-intensity training enhances executive function in children in a randomized, placebo-controlled trial[J]. eLife, 2017, 6: e25062.
[20] van der Niet AG, Smith J, Oosterlaan J, et al.Effects of a cognitively demanding aerobic intervention during recess on children's physical fitness and executive functioning[J]. Pediatr Exerc Sci, 2016, 28(1):64-70.
[21] Veldman S, Jones RA, Stanley RM, et al. Promoting physical activity and executive functions among children: A cluster randomized controlled trial of an after-school program in Australia[J]. J Phys Act Health, 2020, 17(10): 940-946.
[22] Le Pelley ME, Mitchell CJ,Beesley T, et al. Attention and associative learning in humans: An integrative review[J]. Psychol Bull, 2016, 142(10): 1111-1140.
[23] Perner J, Lang B. Development of theory of mind and executive control[J]. Trends Cogn Sci, 1999, 3(9): 337-344.
[24] Diamond A. Executive functions[J]. Annu Rev Psychol, 2013, 64: 135-168.
[25] Meyer DE,Kieras DE. A computational theory of executive cognitive processes and multiple-task performance: Part 1. Basic mechanisms[J]. Psychol Rev, 1997, 104(1):3-65.
[26] Dempster FN. The rise and fall of the inhibitory mechanism: toward a unified theory of cognitive development and aging[J].Dev Rev, 1992, 12(1): 45-75.
[27] Nigg JT. On inhibition/disinhibition in developmental psychopathology:Views from cognitive and personality psychology and a working inhibition taxonomy[J]. Psycho Bull, 2000, 126(2): 220-246.
[28] 丁锦红,郭春彦. 工作记忆的脑机制研究[J]. 心理科学, 2001,24(5): 583-585.
[29] Baddeley A. Working memory: Theories, models, and controversies[J].Annu Rev Psychol, 2012, 63: 1-29.
[30] Dajani DR, Uddin LQ. Demystifying cognitive flexibility: Implications for clinical and developmental neuroscience[J]. Trends Neurosci, 2015, 38(9): 571-578.
[31] Higgind J, Green SE. Cochrane handbook for systematic reviews of interventions version 5.1.0: The cochrance collaboration[M]. Naunyn-Schmi-edebergs Archiv for Experimentelle Pathologie and Pharmakologie, 2011: 38.
[32] Coopre HM. Integrating research: A guide for literature reviews[M]. 2nd ed. CA: SAGE, 1989:1.
[33] Chen AG, Yan J, Yin HC, et al.Effects of acute aerobic exercise on multiple aspects of executive function inpreadolescent children[J]. J Sport Exerc Psychol, 2014, 15(6): 627-636.
[34] Drollette ES, Hillman CH. Walking effects on memory in children: Implications for individual differences in BMI[J]. Ment Health Phys Act, 2020, 18, 100317.
[35] Koutsandréou F, Wegner M, Niemann C, et al.Effects of motor versus cardiovascular exercise training on children's working memory[J]. Med Sci Sports Exerc, 2016, 48(6): 1144-1152.
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