在焦虑诱导的虚拟环境中行走时认知需求对内侧和外侧足底负荷分布的影响。

IF 2.4

Gait & posture Pub Date : 2025-08-26 DOI:10.1016/j.gaitpost.2025.08.072

Kelly Poretti, Nicole E-P Stark, Peter C Fino, Tiphanie E Raffegeau

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引用次数: 0

摘要

导言：跌倒相关的焦虑和认知需求都会影响平衡和步态，而不会增加运动复杂性。虚拟现实中的高海拔设置会导致“姿势僵硬”（即减少摇摆）和步态（即更慢的步态速度），这可能会影响运动平衡。本探索性分析的目的是检查双任务（DT）、即兴演讲和焦虑诱发环境下的运动平衡控制。我们预测认知需求和跌倒相关焦虑会影响内侧和外侧足底负荷的差异，表明内侧和外侧足底负荷的差异。方法：将参与者随机分为单任务（ST）或DT块，但始终在低海拔虚拟环境中行走。参与者戴着头戴式显示器（HTC Vive， 2.0版本）和鞋内负载传感器（Loadsol Pro，新颖），在虚拟环境中以自己选择的速度在一条木制人行道上行走一分钟。对于DT，参与者同时就随机分配的话题即兴发言。运动平衡被检查使用分布之间的内侧和外侧足底负荷在标准化的立场。统计参数映射确定了不同行走条件下内侧和外侧足底负荷分布的显著差异。结果：给参与者（N = 8人，5名女性，身高= 1.7（0.1）米，体重= 71.8（11.5）公斤）穿上了鞋垫。SPM二维重复测量方差分析发现，身高的主要影响区域从33 %到35.5 % （p = .033）。内侧和外侧足底负荷分布减少，代表压力中心（COP）的内侧位置在站立阶段行走时，与低VR高度相比，高VR高度约占34% %。意义：在焦虑诱导的环境中行走，而不是在认知需求下行走，与站立时COP的中间位置（34%）相关，这表明在一步站立的早期阶段，对侧向导向的姿势威胁有动态的基于空间的平衡反应。

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The effects of cognitive demand on distributions of medial and lateral plantar loads while walking in anxiety-inducing virtual settings.

Introduction: Both fall-related anxiety and cognitive demands affect balance and gait without additional motor complexity. High elevation settings in virtual reality elicit 'stiffening of posture' (i.e. reduced sway) and gait (i.e. slower gait speeds) that may influence locomotor balance. The purpose of this exploratory analysis was to examine locomotor balance control during a dual-task (DT), extemporaneous speech, and in anxiety-inducing settings. We predicted cognitive demand and fall-related anxiety would affect mediolateral locomotor balance, indicated by the difference between medial and lateral plantar loads.

Methods: Participants were pseudorandomized into single-task (ST) or DT blocks first but always walked in low before high elevation virtual environment. Participants walked on a wooden walkway at a self-selected pace in virtual settings for one minute while wearing a head-mounted display (HTC Vive, version 2.0) and in-shoe load sensors (Loadsol Pro, novel). For the DT, participants concurrently spoke extemporaneously about a randomly assigned topic. Locomotor balance was examined using the distribution between the medial and lateral plantar loads across normalized stance. Statistical parametric mapping determined significant differences in medial and lateral plantar load distributions between walking conditions.

Results: Insoles were fitted onto participants (N = 8, five women, height = 1.7 (0.1) meters, weight = 71.8 (11.5) kilograms). The SPM two-dimensional repeated measures ANOVA found a region of difference for the main effect of height from 33 % to 35.5 % of stance (p = .033). The medial and lateral plantar load distribution was decreased representing a more medial position of the center of pressure (COP) at approximately 34 % of the stance phase walking at high VR height compared to low VR height.

Significance: Walking in anxiety-inducing settings , but not umder cognitive demand, was associated with a more medial position of the COP at 34 % of stance, suggesting a dynamic spatially-based balance response to laterally-oriented postural threats during the early stance phase of a step.

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Gait & posture

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