两种踝足矫形器类型的刚度调节以优化非痉挛性小腿肌无力患者的步态：概念验证研究。

Stiffness modification of two ankle-foot orthosis types to optimize gait in individuals with non-spastic calf muscle weakness - a proof-of-concept study.

机构信息

Amsterdam UMC, University of Amsterdam, Rehabilitation, Amsterdam Movement Sciences, Meibergdreef 9, Amsterdam, Netherlands.

出版信息

J Foot Ankle Res. 2019 Aug 7;12:41. doi: 10.1186/s13047-019-0348-8. eCollection 2019.

DOI:10.1186/s13047-019-0348-8

PMID:31406508

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6686412/

Abstract

BACKGROUND

To reduce gait problems in individuals with non-spastic calf muscle weakness, spring-like ankle-foot orthoses (AFOs) are often applied, but they are not individually optimized to treatment outcome. The aim of this proof-of-concept study was to evaluate the effects of modifying the stiffness for two spring-like AFO types with shoes-only as reference on gait outcomes in three individuals with calf muscle weakness due to polio.

METHODS

We assessed 3D gait biomechanics, walking speed and walking energy cost for shoes-only and five stiffness conditions of a dorsal-leaf-spring AFO and a spring-hinged AFO. Outcomes were compared between stiffness conditions in the two AFOs and three subjects.

RESULTS

Maximum ankle dorsiflexion angle decreased with increasing stiffness in both AFOs (up to 6-8°) and all subjects. Maximum knee extension angle changed little between stiffness conditions, however different responses between the AFOs and subjects were observed compared to shoes-only. Walking speed remained unchanged across conditions. For walking energy cost, we found fairly large differences across stiffness conditions with both AFOs and between subjects (range 3-15%).

CONCLUSIONS

Modifying AFO stiffness in individuals with non-spastic calf muscle weakness resulted in substantial differences in ankle biomechanics and walking energy cost with no effect on speed. Our results provide proof-of-concept that individually optimizing AFO stiffness can clinically beneficially improve gait performance.

摘要

背景

为了减少非痉挛性小腿肌无力患者的步态问题，常应用类似弹簧的踝足矫形器（AFO），但它们并没有针对治疗效果进行个体化优化。本概念验证研究的目的是评估两种类似弹簧的 AFO 类型在仅穿鞋子的情况下，通过改变其刚度来改善步态结果的效果，研究对象为 3 名因小儿麻痹症导致小腿肌无力的患者。

方法

我们评估了 3D 步态生物力学、行走速度和行走能量消耗，比较了仅穿鞋子和两种类似弹簧的 AFO（背叶弹簧 AFO 和弹簧铰链 AFO）的 5 种刚度条件下的结果。我们比较了两种 AFO 类型和 3 名受试者之间的刚度条件下的结果。

结果

在两种 AFO 中，刚度增加时最大踝关节背屈角度均减小（最大减少 6-8°），所有受试者均如此。最大膝关节伸展角度在不同刚度条件下变化不大，但与仅穿鞋子的情况相比，AFO 和受试者之间的反应不同。行走速度在所有条件下保持不变。对于行走能量消耗，我们发现两种 AFO 和受试者之间的刚度条件存在相当大的差异（范围为 3-15%）。

结论

在非痉挛性小腿肌无力患者中，改变 AFO 刚度会导致踝关节生物力学和行走能量消耗发生显著变化，但对速度没有影响。我们的结果提供了概念验证，即个体化优化 AFO 刚度可以在临床上有益地改善步态表现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7096/6686412/fef261dc5395/13047_2019_348_Fig1_HTML.jpg

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本文引用的文献

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Gait Posture. 2017 Oct;58:146-153. doi: 10.1016/j.gaitpost.2017.07.107. Epub 2017 Jul 23.

PLoS One. 2015 Nov 23;10(11):e0142878. doi: 10.1371/journal.pone.0142878. eCollection 2015.

The Shank-to-Vertical-Angle as a parameter to evaluate tuning of Ankle-Foot Orthoses.小腿与垂直角度作为评估踝足矫形器调整的一个参数。

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Acclimatization of the gait pattern to wearing an ankle-foot orthosis in children with spastic cerebral palsy.痉挛型脑瘫患儿步态模式对佩戴踝足矫形器的适应性

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The influence of ankle-foot orthosis stiffness on walking performance in individuals with lower-limb impairments.踝足矫形器刚度对下肢功能障碍患者步行性能的影响。

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Defining the mechanical properties of a spring-hinged ankle foot orthosis to assess its potential use in children with spastic cerebral palsy.定义弹簧铰链式踝足矫形器的力学性能，以评估其在痉挛型脑瘫儿童中的潜在用途。

J Appl Biomech. 2014 Dec;30(6):728-31. doi: 10.1123/jab.2014-0046. Epub 2014 Jul 9.

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How does ankle-foot orthosis stiffness affect gait in patients with lower limb salvage?踝足矫形器的刚度如何影响下肢保肢患者的步态？

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Biomechanical abnormalities of post-polio patients and the implications for orthotic management.肌萎缩侧索硬化症患者的生物力学异常及其对矫形器管理的影响。

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两种踝足矫形器类型的刚度调节以优化非痉挛性小腿肌无力患者的步态：概念验证研究。

Stiffness modification of two ankle-foot orthosis types to optimize gait in individuals with non-spastic calf muscle weakness - a proof-of-concept study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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