个体优化的弧形中底和自调节鞋垫对糖尿病和神经病变患者动态稳定性的影响。
Effects of individually optimized rocker midsoles and self-adjusting insoles on dynamic stability in persons with diabetes mellitus and neuropathy.
机构信息
University of Groningen, University Medical Center Groningen, Department of Rehabilitation Medicine, Groningen, the Netherlands.
University of Groningen, University Medical Center Groningen, Department of Rehabilitation Medicine, Groningen, the Netherlands.
出版信息
Gait Posture. 2024 Jul;112:154-158. doi: 10.1016/j.gaitpost.2024.05.011. Epub 2024 May 14.
BACKGROUND
Persons with diabetic peripheral neuropathy (DPN) may face challenges such as balance issues due to reduced somatosensory feedback and an increased risk of developing diabetic foot ulcers (DFUs) due to increased plantar pressure. Pressure reducing footwear is thought to further impair balance. We introduced 3D-printed rocker midsoles and self-adjusting insoles that are able to reduce elevated plantar pressure values and aimed to prevent balance deterioration. However, their effect on the balance during walking (dynamic stability) is not analyzed yet.
RESEARCH QUESTION
Is dynamic stability of persons with DPN impaired compared to healthy individuals and what is the effect of the 3D-printed rocker midsoles and self-adjusting insoles on the dynamic stability in this population?
METHODS
Dynamic stability, specifically the margins of stability (MOS) in the anterior-posterior (AP) and medio-lateral (ML) direction, was measured in ten healthy and nineteen persons with DPN. Independent-samples t-test was applied to analyze the difference in the MOS between groups. One-way repeated measures analyses of variance (ANOVA) was conducted to test the difference between the therapeutic footwear combinations within the DPN group.
RESULTS
There is no significant difference between the healthy and DPN group in MOS-AP. MOS-ML is significantly larger in DPN compared to the healthy participants. Using the self-adjusting insole shows a significantly lower (negative) MOS-AP compared to when using a rocker shoe within the DPN group.
SIGNIFICANCE
This study provides valuable information on whether DPN and our therapeutic footwear have a negative effect on the dynamic stability. DPN does not have a negative effect on dynamic stability in the AP direction. For the ML direction, DPN seems to cause larger MOS-ML by likely using a compensation strategy (e.g., wider steps) while our experimental footwear does not further impair the MOS-ML.
背景
患有糖尿病周围神经病变(DPN)的人可能会面临平衡问题,这是由于躯体感觉反馈减少,以及足底压力增加导致发生糖尿病足溃疡(DFU)的风险增加。减压鞋被认为会进一步损害平衡。我们引入了 3D 打印的弧形中底和自调节鞋垫,它们能够降低升高的足底压力值,并旨在防止平衡恶化。然而,它们对行走时(动态稳定性)的平衡的影响尚未分析。
研究问题
与健康个体相比,患有 DPN 的个体的动态稳定性是否受损,以及 3D 打印弧形中底和自调节鞋垫对该人群的动态稳定性有何影响?
方法
在 10 名健康个体和 19 名患有 DPN 的个体中测量了动态稳定性,特别是前后(AP)和内外(ML)方向的稳定性边界(MOS)。采用独立样本 t 检验分析组间 MOS 的差异。对 DPN 组内治疗性鞋类组合进行单向重复测量方差分析(ANOVA),以测试差异。
结果
健康组和 DPN 组之间在 MOS-AP 上没有显著差异。与健康参与者相比,DPN 患者的 MOS-ML 明显更大。在 DPN 组中,使用自调节鞋垫时,MOS-AP 明显低于(负值),而使用弧形鞋时则相反。
意义
本研究提供了有关 DPN 和我们的治疗性鞋类是否对动态稳定性产生负面影响的有价值的信息。DPN 对 AP 方向的动态稳定性没有负面影响。对于 ML 方向,DPN 似乎通过可能使用补偿策略(例如,更宽的步幅)导致更大的 MOS-ML,而我们的实验性鞋类不会进一步损害 MOS-ML。
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