The Effect of Varying the Plantarflexion Resistance of an Ankle-foot Orthosis on Knee Joint Kinematics in Patients with Stroke

Overview

Journal Gait Posture

Specialty Orthopedics

Date 2012 Aug 28

PMID 22921491

Citations 15

Authors

Toshiki Kobayashi

Aaron K L Leung

Yasushi Akazawa

Stephen W Hutchins

Affiliations

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Abstract

Ankle-foot orthoses (AFOs) can improve gait in patients with hemiplegia. However, it is anecdotally known that excessive plantarflexion resistance of an AFO could induce undesired knee flexion at early stance. The aim of this study was to systematically investigate the effect of varying the degrees of plantarflexion resistance of an AFO on knee flexion angles at early stance in five subjects with chronic stroke who demonstrated two clear knee flexion peaks at early stance and swing. Each subject wore an experimental AFO constructed with an oil-damper type ankle joint and was instructed to walk at their self-selected walking speed under five plantarflexion resistance conditions. The sagittal plane ankle and knee joint kinematics and gait speed were analyzed using a 3-D Motion Analysis System. A number of significant differences (P<0.005) in maximum knee flexion angles at early stance amongst different plantarflexion resistance conditions were revealed. The knee flexion angle was 23.80 (3.25) degrees under the free hinge joint condition (condition 1), while that was 26.09 (3.79) degrees under the largest resistance condition (condition 5). It was therefore demonstrated that increasing the plantarflexion resistance of an AFO would induce more knee flexion at early stance phase in patients with stroke.

Citing Articles

A proposed evidence-guided algorithm for the adjustment and optimization of multi-function articulated ankle-foot orthoses in the clinical setting.

LeCursi N, Janka B, Gao F, Orendurff M, He Y, Kobayashi T Front Rehabil Sci. 2024; 5:1353303.

PMID: 39119264 PMC: 11307126. DOI: 10.3389/fresc.2024.1353303.

Effect of a rigid ankle foot orthosis and an ankle foot orthosis with an oil damper plantar flexion resistance on pelvic and thoracic movements of patients with stroke during gait.

Ling H, Guo H, Zhou H, Chang X, Guo Z, Yamamoto S Biomed Eng Online. 2023; 22(1):9.

PMID: 36747170 PMC: 9901085. DOI: 10.1186/s12938-023-01068-0.

Robotic ankle control can provide appropriate assistance throughout the gait cycle in healthy adults.

Nakagawa K, Higashi K, Ikeda A, Kadono N, Tanaka E, Yuge L Front Neurorobot. 2022; 16:993939.

PMID: 36238427 PMC: 9551652. DOI: 10.3389/fnbot.2022.993939.

Effect of trim line on stiffness in dorsi- and plantarflexion of posterior leaf spring ankle-foot orthoses.

Go T, Agarie Y, Suda H, Maeda Y, Katsuhira J, Ehara Y J Phys Ther Sci. 2022; 34(4):284-289.

PMID: 35400835 PMC: 8989486. DOI: 10.1589/jpts.34.284.

Classification of Ankle Joint Stiffness during Walking to Determine the Use of Ankle Foot Orthosis after Stroke.

Sekiguchi Y, Honda K, Owaki D, Izumi S Brain Sci. 2021; 11(11).

PMID: 34827512 PMC: 8615379. DOI: 10.3390/brainsci11111512.