足背屈对足底筋膜剪切波速度区域分布的影响。

Effect of toe dorsiflexion on the regional distribution of plantar fascia shear wave velocity.

作者信息

Chino Kentaro, Lacourpaille Lilian, Sasahara Jun, Suzuki Yasuhiro, Hug François

机构信息

Sports Okinawa, Urasoe city, Okinawa, Japan; Department of Sports Research, Japan Institute of Sports Sciences, Kita city, Tokyo, Japan.

Laboratory Movement, Interactions, Performance (EA 4334), Faculty of Sport Sciences, University of Nantes, Nantes, France.

出版信息

Clin Biomech (Bristol). 2019 Jan;61:11-15. doi: 10.1016/j.clinbiomech.2018.11.003. Epub 2018 Nov 8.

DOI:10.1016/j.clinbiomech.2018.11.003

PMID:30453119

Abstract

BACKGROUND

The plantar fascia is exposed to repetitive tensile stress induced by cyclic loads associated with daily activities, such as walking and running. Due to overuse or abnormal foot alignment, insertional and distal (i.e., mid-substance) regions within the plantar fascia may exhibit microtears, which leads to plantar fasciopathy. Ultrasound shear wave elastography is an imaging technique to measure shear wave velocity propagating through biological tissues, considered herein as an index of tensile stress. This study aimed to quantify the effect of toe dorsiflexion on the regional distribution of plantar fascia shear wave velocity.

METHODS

Shear wave velocity of the plantar fascia was measured in the insertional and distal regions using ultrasound shear wave elastography in sixteen healthy participants (7 males and 9 females). The measurements were performed while the toes were maintained in neutral or dorsiflexed positions.

FINDINGS

When considering the insertional region, there was no significant difference in shear wave velocity between neutral toe position [mean (SEM): 5.4 (0.6) m/s] and dorsiflexed toe position [5.5 (0.5) m/s] (P = 0.88; effect size = 0.05). When considering the distal region, there was a significant difference in shear wave velocity between the neutral position [7.8 (0.4) m/s] and dorsiflexed position [9.9 (0.3) m/s] (P = 0.002; effect size = 0.88). The difference in shear wave velocity between the insertional and distal regions showed a large effect size for either neutral (P = 0.010; effect size = 0.75) or dorsiflexed toe position (P = 0.003; effect size = 0.86).

INTERPRETATION

In contrast to clinical beliefs, these findings suggest that toe dorsiflexion induces non-homogeneous changes in tensile stress within the plantar fascia.

摘要

背景

足底筋膜会受到与日常活动（如行走和跑步）相关的周期性负荷所引起的反复拉伸应力。由于过度使用或足部排列异常，足底筋膜内的附着区和远端（即中间部分）可能会出现微小撕裂，从而导致足底筋膜炎。超声剪切波弹性成像技术是一种测量通过生物组织传播的剪切波速度的成像技术，在此被视为拉伸应力的指标。本研究旨在量化足背屈对足底筋膜剪切波速度区域分布的影响。

方法

在16名健康参与者（7名男性和9名女性）中，使用超声剪切波弹性成像技术测量足底筋膜在附着区和远端区域的剪切波速度。测量在脚趾保持中立或背屈位置时进行。

结果

考虑附着区时，脚趾中立位[平均（标准误）：5.4（0.6）m/s]和背屈位[5.5（0.5）m/s]之间的剪切波速度无显著差异（P = 0.88；效应量 = 0.05）。考虑远端区域时，中立位[7.8（0.4）m/s]和背屈位[9.9（0.3）m/s]之间的剪切波速度有显著差异（P = 0.002；效应量 = 0.88）。附着区和远端区域之间的剪切波速度差异在脚趾中立（P = 0.010；效应量 = 0.75）或背屈位（P = 0.003；效应量 = 0.86）时均显示出较大的效应量。

解读

与临床观点相反，这些发现表明足背屈会引起足底筋膜内拉伸应力的非均匀变化。

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足背屈对足底筋膜剪切波速度区域分布的影响。

Effect of toe dorsiflexion on the regional distribution of plantar fascia shear wave velocity.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

背景

方法

结果

解读

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