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正常体重和超重/肥胖 9-10 岁儿童粗大运动协调性与基本协调能力的相关性。

Correlation between gross motor coordination and basic coordination capacities in normal-weight and overweight/obese children aged 9-10 years.

机构信息

School of Athletic Performance, Shanghai University of Sport, Shanghai, China.

Department of Military Physical Education, National University of Defense Technology, Beijing, China.

出版信息

PeerJ. 2024 Aug 9;12:e17865. doi: 10.7717/peerj.17865. eCollection 2024.

DOI:10.7717/peerj.17865
PMID:39135953
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11318586/
Abstract

BACKGROUND

Gross motor coordination (GMC) plays a crucial factor in children's motor development and daily activities. It encompasses various sub-capacities, such as spatial orientation, rhythm, and motor reaction, collectively referred to as basic coordination capacities (BCC). However, children who are overweight and obese (OW/OB) often display poorer GMC. This study aims to examine the impact of gender and weight status (BMI categories) on children's GMC and BCC. It also seeks to investigate the impact of BCC and BMI on GMC.

METHOD

The study involved 266 participants, 135 in the NW group (boys: = 75; girls: = 60) and 131 in the OW/OB group (boys: = 68; girls: = 63). An NW status is defined by a BMI z-score between ≥-2SD to ≤1SD, while an OW/OB status corresponds to a BMI z-score > 1SD. Physical activity was assessed using the Physical Activity Questionnaire for Children, developed by the University of Saskatchewan, Canada. We used six field tests to evaluate BCC, including single leg standing test (static balance), YBT (dynamic balance), rhythmic sprint test (rhythm), reaction time test (motor reaction), target standing broad test (kinesthetic differentiation), and numbered medicine ball running test (spatial orientation). GMC was evaluated with Kiphard-Schilling's Body Coordination Test (KTK).

RESULT

The motor quotient (MQ) was primarily affected by weight status (F = 516.599, < 0.001; gender: F = 6.694, = 0.01), with no significant interaction effect (F = 0.062, = 0.803). In BCC, gender had a significant main effect on rhythm capacity (F = 29.611, < 0.001) and static balance (F = 11.257, = 0.001) but did not significant influence other sub-capacities ( > 0.05). Weight status impacted dynamic balance (F = 11.164, = 0.001). The interaction of gender and weight status significantly impacted motor reaction (F = 1.471, = 0.024) and kinesthetic differentiation (F = 5.454, = 0.02), but did not affect other sub-capacities ( > 0.05). The physical activity was not significant affected by gender (F = 0.099, = 0.753), weight status (F = 0.171, = 0.679) and the interactions of two variables (F = 0.06, = 0.806). In the regression analysis, except motor reaction ( > 0.05), other BCC sub-capacities influenced GMC to varying extents (β = -0.103-0.189, < 0.05). Nonetheless, only two types of balance significantly mediated the relationship between BMI and GMC (BMI→MQ: β = -0.543, < 0.001; BMI→YBT: β = -0.315, < 0.001; BMI→SLS: β = -0.282, < 0.001; SLS→MQ: β = 0.189, < 0.001; YBT→MQ: β = 0.182, < 0.001).

CONCLUSION

Compared to gender, the main effect of weight status on most GMC and BCC's sub-capacities was more pronounced. OW/OB children exhibited poorer GMC, which is related to their reduced static and dynamic balance due to excess weight. Kinesthetic differentiation, spatial orientation, and rhythm capacity are not significantly associated with BMI, but these sub-capacities positively influence gross motor coordination (GMC), except for hand-eye motor reaction.

摘要

背景

粗大运动协调能力(GMC)在儿童运动发育和日常活动中起着至关重要的作用。它包括空间定向、节奏和运动反应等各种基本协调能力(BCC)。然而,超重和肥胖的儿童(OW/OB)通常表现出较差的 GMC。本研究旨在探讨性别和体重状况(BMI 类别)对儿童 GMC 和 BCC 的影响。它还试图调查 BCC 和 BMI 对 GMC 的影响。

方法

本研究共涉及 266 名参与者,其中 NW 组 135 名(男生:=75;女生:=60),OW/OB 组 131 名(男生:=68;女生:=63)。NW 状态定义为 BMI z 分数在≥-2SD 至≤1SD 之间,而 OW/OB 状态对应于 BMI z 分数>1SD。身体活动使用加拿大萨斯喀彻温大学的儿童身体活动问卷进行评估。我们使用六项现场测试来评估 BCC,包括单腿站立测试(静态平衡)、YBT(动态平衡)、节奏冲刺测试(节奏)、反应时间测试(运动反应)、目标站立广泛测试(运动感觉分化)和编号药球跑步测试(空间定向)。GMC 用 Kiphard-Schilling 身体协调测试(KTK)进行评估。

结果

运动商数(MQ)主要受体重状况的影响(F=516.599,<0.001;性别:F=6.694,=0.01),没有显著的交互作用(F=0.062,=0.803)。在 BCC 中,性别对节奏能力(F=29.611,<0.001)和静态平衡(F=11.257,=0.001)有显著的主效应,但对其他子能力没有显著影响(>0.05)。体重状况影响动态平衡(F=11.164,=0.001)。性别和体重状况的交互作用显著影响运动反应(F=1.471,=0.024)和运动感觉分化(F=5.454,=0.02),但对其他子能力没有影响(>0.05)。身体活动不受性别(F=0.099,=0.753)、体重状况(F=0.171,=0.679)和两个变量交互作用(F=0.06,=0.806)的影响。在回归分析中,除了运动反应(>0.05),其他 BCC 子能力对 GMC 有不同程度的影响(β=-0.103-0.189,<0.05)。然而,只有两种平衡类型显著介导了 BMI 和 GMC 之间的关系(BMI→MQ:β=-0.543,<0.001;BMI→YBT:β=-0.315,<0.001;BMI→SLS:β=-0.282,<0.001;SLS→MQ:β=0.189,<0.001;YBT→MQ:β=0.182,<0.001)。

结论

与性别相比,体重状况对大多数 GMC 和 BCC 子能力的主要影响更为明显。OW/OB 儿童表现出较差的 GMC,这与其体重过重导致的静态和动态平衡能力下降有关。运动感觉分化、空间定向和节奏能力与 BMI 无显著相关性,但这些子能力对 GMC 有积极影响(除了手眼运动反应)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/3ec850bf517f/peerj-12-17865-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/307ebec74846/peerj-12-17865-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/95f0fabc799c/peerj-12-17865-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/e947d0875ff5/peerj-12-17865-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/c071c40162d0/peerj-12-17865-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/3ec850bf517f/peerj-12-17865-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/307ebec74846/peerj-12-17865-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/95f0fabc799c/peerj-12-17865-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/e947d0875ff5/peerj-12-17865-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/c071c40162d0/peerj-12-17865-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e105/11318586/3ec850bf517f/peerj-12-17865-g005.jpg

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