体质和视网膜微循环对儿童至青春期前认知能力发展的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Sebastian Ludyga , Christoph Hauser , Sabrina Köchli, Giulia Lona, Lukas Streese, Oliver Faude, Markus Gerber, Henner Hanssen
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引用次数: 0

摘要

视网膜微循环是脑血管功能的代表,与身体素质和认知功能都有联系。我们研究了身体素质在儿童执行功能发展中的作用,以及它通过微血管健康的调节作用。使用交叉滞后面板设计,365名6至8岁的儿童完成了基线评估,并在四年后进行了随访。对用眼底照相机获得的数字视网膜图像进行视网膜血管分析。此外,计算机化的Flanker任务被用于评估执行功能的抑制方面。在体能测试方面,参与者完成了穿梭跑和20米短跑。路径分析表明,在考虑自回归效应的情况下,基线时穿梭跑和20米短跑的较高表现都与随访时Flanker任务的反应时间较低有关。基线时航天飞机运行所达到的阶段与视网膜小静脉直径的缩小进一步相关,这反过来又预测了Flanker任务的表现。然而,与通过视网膜小静脉直径的间接关系相比,体能成分与反应时间的直接关系更高。从童年到青春期前,高体质有助于认知能力的发展。这种关联不是由视网膜血管直径介导的,而较窄的视网膜小静脉的微血管表型独立地与信息处理和抑制控制的更好发展有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of physical fitness and retinal microcirculation on the development of cognitive abilities from childhood to preadolescence

The retinal microcirculation serves a proxy of cerebrovascular function and has been linked with both physical fitness and cognitive function. We investigated the role of physical fitness for the development of executive function in children as well as its mediation by microvascular health. Using a cross-lagged panel design, 365 children aged six to eight years completed a baseline assessment, which was followed up after four years. Retinal vessel analysis was performed on digital retinal images obtained with a fundus camera. Additionally, a computerized Flanker task was administered to assess the inhibitory aspect of executive function. With regard to physical fitness tests, participants completed a shuttle run and 20-m sprints. Path-analyses showed that higher performance on the shuttle run and 20-m sprint at baseline were both associated with lower reaction times on the Flanker task at follow-up, when autoregressive effects were accounted for. Stages achieved on the shuttle run at baseline were further related to narrowing of retinal venular diameters, which in turn predicted performance on the Flanker task. However, the direct relation of physical fitness components to reaction time was higher compared to the indirect relation via retinal venular diameters. High physical fitness contributes to the development of cognitive abilities from childhood to preadolescence. This association is not mediated by retinal vessel diameters, while the microvascular phenotype of narrower retinal venules is independently related to a better development of information processing and inhibitory control.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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