一项利用足底表面应变分析和绘图(STAMPS)的横断面初步研究,用于测量健康人群中的足底负荷特征。
A cross sectional pilot study utilising STrain Analysis and Mapping of the Plantar Surface (STAMPS) to measure plantar load characteristics within a healthy population.
机构信息
Leeds Vascular Institute, Leeds Teaching Hospitals NHS Trust, Leeds LS9 7TF, UK; Leeds Institute of Clinical Trials Research, University of Leeds, Leeds LS2 9JT, UK.
Leeds School of Mechanical Engineering, University of Leeds, LS2 9JT, UK.
出版信息
Gait Posture. 2024 Sep;113:246-251. doi: 10.1016/j.gaitpost.2024.06.018. Epub 2024 Jun 26.
BACKGROUND
No in-shoe systems, measuring both components of plantar load (plantar pressure and shear stress) are available for use in patients with diabetes. The STAMPS (STrain Analysis and Mapping of the Plantar Surface) system utilises digital image correlation (DIC) to determine the strain sustained by a deformable insole, providing a more complete understanding of plantar shear load at the foot-surface interface.
RESEARCH QUESTIONS
What is the normal range and pattern of strain at the foot-surface interface within a healthy population as measured by the STAMPS system? Is STAMPS a valid tool to measure the effects of plantar load?
METHODS
A cross-sectional study of healthy participants was undertaken. Healthy adults without foot pathology or diabetes were included. Participants walked 20 steps with the STAMPS insole in a standardised shoe. Participants also walked 10 m with the Novel Pedar® plantar pressure measurement insole within the standardised shoe. Both measurements were repeated three times. Outcomes of interest were global and regional values for peak resultant strain (S) and peak plantar pressure (PPP).
RESULTS
In 18 participants, median peak S and PPP were 35.01 % and 410.6kPa respectively. The regions of the hallux and heel sustained the highest S (29.31 % (IQR 24.56-31.39) and 20.50 % (IQR 15.59-24.12) respectively) and PPP (344.8kPa (IQR 268.3 - 452.5) and 279.3kPa (IQR 231.3-302.1) respectively). S was moderately correlated with PPP (r= 0.65, p < 0.001). Peak S was located at the hallux in 55.6 % of participants, at the 1st metatarsal head (MTH) in 16.7 %, the heel in 16.7 %, toes 3-5 in 11.1 % and the MTH2 in 5.6 %.
SIGNIFICANCE
The results demonstrate the STAMPS system is a valid tool to measure plantar strain. Further studies are required to investigate the effects of elevated strain and the relationship with diabetic foot ulcer formation.
背景
目前尚无可用于糖尿病患者的、同时测量足底负荷(足底压力和剪切力)各组成部分的鞋内系统。STAMPS(足底表面应变分析与绘图系统)系统利用数字图像相关(DIC)来确定可变形鞋垫所承受的应变,从而更全面地了解足底剪切负荷在足面界面处的情况。
研究问题
STAMPS 系统测量的健康人群足面界面处的应变正常范围和模式是什么?STAMPS 是测量足底负荷影响的有效工具吗?
方法
对健康参与者进行了横断面研究。纳入无足部病理或糖尿病的健康成年人。参与者在标准鞋内穿着 STAMPS 鞋垫行走 20 步。参与者还穿着 Novel Pedar®足底压力测量鞋垫在标准鞋内行走 10 米。这两种测量方法均重复三次。感兴趣的结果是峰值总应变(S)和峰值足底压力(PPP)的全局和区域值。
结果
在 18 名参与者中,中位数峰值 S 和 PPP 分别为 35.01%和 410.6kPa。大脚趾和脚跟区域的 S 值(29.31%(IQR 24.56-31.39)和 20.50%(IQR 15.59-24.12))和 PPP(344.8kPa(IQR 268.3-452.5)和 279.3kPa(IQR 231.3-302.1))最高。S 与 PPP 中度相关(r=0.65,p<0.001)。在 55.6%的参与者中,峰值 S 位于大脚趾,在 16.7%的参与者中位于第一跖骨头部,在 16.7%的参与者中位于脚跟,在 11.1%的参与者中位于脚趾 3-5 处,在 5.6%的参与者中位于第二跖骨头部。
意义
结果表明,STAMPS 系统是测量足底应变的有效工具。需要进一步的研究来调查高应变的影响以及与糖尿病足溃疡形成的关系。
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