时间边界函数研究儿童直立姿态控制的发展。

Q3 Medicine
Open Biomedical Engineering Journal Pub Date : 2017-04-28 eCollection Date: 2017-01-01 DOI:10.2174/1874120701711010049
Carmen D'Anna, Maurizio Schmid, Andrea Scorza, Salvatore A Sciuto, Luisa Lopez, Silvia Conforto
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引用次数: 4

摘要

背景:姿势控制在小学时期的发展是一个复杂的过程,包括生物力学的改变,认知能力和感觉运动组织的成熟,以及预期行为的出现。因此,直立站立的姿势稳定性已成为多种研究的对象,以更好地表征这个年龄段的姿势控制,采用各种方法方法。时间边界函数(Time-to-Boundary function, TtB)的分析指明了直立姿势调节中压力中心(CoP)与稳定性边界的时空接近程度,是用来更好地表征成人姿势稳定性的技术之一,但到目前为止,它还没有被引入到发展研究中。因此,本研究的目的是应用这一技术来评估小学生的姿势控制的发展。方法:采用横断面研究方法,对107例健康儿童进行睁眼和闭眼直立站立试验,分为3个年龄组(7岁组41例;9年组38岁;11年组,28岁)。记录CoP数据,计算时间到边界函数(Time-to-Boundary function, TtB),提取TtB最小值的均值和标准差(Mmin, Stdmin)以及两个连续最小值之间的时间距离的均值和标准差(Mdist, Stddist)四个时空参数。结果:闭眼时,Y7组Mmin、Stdmin显著降低,Mdist、Stddist升高,Y9组Mmin显著降低,Stddist升高,Y11组视力无影响。各年龄组中,9年级的Mmin显著高于7年级,9年级的Stdmin均高于7年级和11年级;11年的Mdist和Stddist结果高于9年。结论:从时空TtB参数的综合结果来看,儿童在9岁时比7岁时更有效地探索其稳定性的极限,而在11岁时观察到的TtB行为暗示,在这个年龄,他们几乎完成了直立姿势控制的成熟,也完成了时空信息整合的成熟。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Time-to-Boundary Function to Study the Development of Upright Stance Control in Children.

Time-to-Boundary Function to Study the Development of Upright Stance Control in Children.

Time-to-Boundary Function to Study the Development of Upright Stance Control in Children.

Background: The development of postural control across the primary school time horizon is a complex process, which entails biomechanics modifications, the maturation of cognitive ability and sensorimotor organization, and the emergence of anticipatory behaviour. Postural stability in upright stance has been thus object of a multiplicity of studies to better characterize postural control in this age span, with a variety of methodological approaches. The analysis of the Time-to-Boundary function (TtB), which specifies the spatiotemporal proximity of the Centre of Pressure (CoP) to the stability boundaries in the regulation of posture in upright stance, is among the techniques used to better characterize postural stability in adults, but, as of now, it has not yet been introduced in developmental studies. The aim of this study was thus to apply this technique to evaluate the development of postural control in a sample population of primary school children.

Methods: In this cross-sectional study, upright stance trials under eyes open and eyes closed were administered to 107 healthy children, divided into three age groups (41 for Seven Years' Group, Y7; 38 for Nine Years' Group, Y9; 28 for Eleven Years' Group, Y11). CoP data were recorded to calculate the Time-to-Boundary function (TtB), from which four spatio-temporal parameters were extracted: the mean value and the standard deviation of TtB minima (Mmin, Stdmin), and the mean value and the standard deviation of the temporal distance between two successive minima (Mdist, Stddist).

Results: With eyes closed, Mmin and Stdmin significantly decreased and Mdist and Stddist increased for the Y7 group, at Y9 Mmin significantly decreased and Stddist increased, while no effect of vision resulted for Y11. Regarding age groups, Mmin was significantly higher for Y9 than Y7, and Stdmin for Y9 was higher than both Y7 and Y11; Mdist and Stddist resulted higher for Y11 than for Y9.

Conclusion: From the combined results from the spatio-temporal TtB parameters, it is suggested that, at 9 years, children look more efficient in terms of exploring their limits of stability than at 7, and at 11 the observed TtB behaviour hints at the possibility that, at that age, they have almost completed the maturation of postural control in upright stance, also in terms of integration of the spatio-temporal information.

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来源期刊
Open Biomedical Engineering Journal
Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)
CiteScore
1.60
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发文量
4
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