机械环境影响婴儿滚动时的肌肉活动

IF 1.6 3区 心理学 Q4 NEUROSCIENCES Human Movement Science Pub Date : 2024-03-14 DOI:10.1016/j.humov.2024.103208
Danielle N. Siegel , Safeer F. Siddicky , Wyatt D. Davis , Erin M. Mannen
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引用次数: 0

摘要

婴儿的肌肉骨骼和运动发育在很大程度上受到环境的影响。有必要了解不同的机械环境如何影响婴儿的运动和肌肉使用,以便为幼儿产品行业提供信息,减少每年涉及倾斜式育儿产品的事故。本研究的目的是确定协调运动和相应的肌肉激活模式如何受到不同机械环境(特别是背部倾斜角度)的影响。38 名健康婴儿(年龄:6.5 ± 0.7 个月;23 名男婴/15 名女婴)参加了这项经 IRB 批准的体内生物力学研究。当婴儿在五种不同的机械环境中翻滚时,表面肌电图传感器记录了竖脊肌、腹肌、股四头肌和腿肌的肌肉活动,这五种环境分别是:平坦表面和四种设备配置,代表了婴儿经常接触到的各种倾斜度。通过视频确定协调动作。与平坦表面相比,在所有具有倾斜椅背角度的配置中,婴儿的竖脊肌活化程度明显更高,腹肌活化程度明显更低。在倾斜装置配置中,婴儿还表现出不同的协调运动,包括脊柱伸展和骨盆推力,这在以前的平面上是无法观察到的。了解婴儿在不同的倾斜环境中滚动时如何协调动作和使用肌肉,有助于深入了解运动发育情况,并为幼儿产品行业提供参考。影响婴儿运动的因素很多,因此未来的工作应探索其他环境互动如何影响婴儿的运动和肌肉激活,尤其是在滚动时。
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Mechanical environment influences muscle activity during infant rolling

An infant's musculoskeletal and motor development is largely affected by their environment. Understanding how different mechanical environments affect an infant's movements and muscle use is necessary to inform the juvenile products industry and reduce incidents involving inclined nursery products each year. The purpose of this study was to determine how the coordinated movements and corresponding muscle activation patterns are affected by different mechanical environments, specifically the back incline angle. Thirty-eight healthy infants (age: 6.5 ± 0.7 months; 23 M/15 F) were enrolled in this IRB-approved in-vivo biomechanics study. Surface electromyography sensors recorded muscle activity of the erector spinae, abdominal muscles, quadriceps, and hamstrings while infants rolled in five different mechanical environments: a flat surface and four device configurations representing a range of inclines infants are commonly exposed to. Coordinated movements were determined using video. In all configurations featuring an inclined seatback angle, infants experienced significantly higher erector spinae muscle activation and significantly lower abdominal muscle activation compared to the flat surface. Infants also exhibited a different coordinated movement featuring spinal extension and a pelvic thrust in the inclined device configurations that was not previously observed on the flat surface alone. Understanding how infants coordinate their movements and use their muscles during rolling in different inclined environments provides more insight into motor development and may inform the juvenile products industry. Many factors impact an infant's movements, therefore future work should explore how other environmental interactions influence an infant's movements and muscle activation, particularly for rolling.

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来源期刊
Human Movement Science
Human Movement Science 医学-神经科学
CiteScore
3.80
自引率
4.80%
发文量
89
审稿时长
42 days
期刊介绍: Human Movement Science provides a medium for publishing disciplinary and multidisciplinary studies on human movement. It brings together psychological, biomechanical and neurophysiological research on the control, organization and learning of human movement, including the perceptual support of movement. The overarching goal of the journal is to publish articles that help advance theoretical understanding of the control and organization of human movement, as well as changes therein as a function of development, learning and rehabilitation. The nature of the research reported may vary from fundamental theoretical or empirical studies to more applied studies in the fields of, for example, sport, dance and rehabilitation with the proviso that all studies have a distinct theoretical bearing. Also, reviews and meta-studies advancing the understanding of human movement are welcome. These aims and scope imply that purely descriptive studies are not acceptable, while methodological articles are only acceptable if the methodology in question opens up new vistas in understanding the control and organization of human movement. The same holds for articles on exercise physiology, which in general are not supported, unless they speak to the control and organization of human movement. In general, it is required that the theoretical message of articles published in Human Movement Science is, to a certain extent, innovative and not dismissible as just "more of the same."
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