Annals of Rehabilitation Medicine

"Ankle-foot orthosis"

Original Articles

Effects on Foot External Rotation of the Modified Ankle-Foot Orthosis on Post-Stroke Hemiparetic Gait: Ha Jeong Kim, Min Ho Chun, Hong Min Kim, Bo Ryun Kim; Ann Rehabil Med 2013;37(4):516-522. Published online August 26, 2013; DOI: https://doi.org/10.5535/arm.2013.37.4.516

Abstract
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Objective

To evaluate the effects of heel-opened ankle foot orthosis (HOAFO) on hemiparetic gait after stroke, especially on external foot rotation, and to compare the effects of HOAFO with conventional plastic-AFO (pAFO) and barefoot during gait.

Methods

This cross-over observational study involved 15 hemiparetic patients with external rotation of the affected foot. All subjects were able to walk independently, regardless of their usual use of a single cane, and had a less than fair-grade in ankle dorsiflexion power. Each patient was asked to walk in three conditions with randomized sequences: 1) barefoot, 2) with a pAFO, and 3) with an HOAFO. Their gait patterns were analyzed using a motion analysis system.

Results

Fifteen patients consisted of nine males and six females. On gait analysis, hip and foot external rotation were significantly greater in pAFO (-3.35° and -23.68°) than in barefoot and HOAFO conditions (p<0.05). Wearing an HOAFO resulted in significant decreases in hip (0.78°, p=0.04) and foot (-17.99°, p<0.01) external rotation compared with pAFO; although there was no significant difference between HOAFO and barefoot walking. Walking speed and percentage of single limb support were significantly greater for HOAFO than in barefoot walking.

Conclusion

HOAFO was superior to pAFO in reducing hip and foot external rotation during the stance phase in patients with post-stroke hemiparesis. HOAFO may, therefore, be useful in patients with excessive external rotation of the foot during conventional pAFO.

Citations

Citations to this article as recorded by

Effects of ankle-foot orthosis on gait pattern and spatiotemporal indices during treadmill walking in hemiparetic stroke
Kei Ohtsuka, Masahiko Mukaino, Junya Yamada, Matsuda Fumihiro, Hiroki Tanikawa, Kazuhiro Tsuchiyama, Toshio Teranishi, Eiichi Saitoh, Yohei Otaka
International Journal of Rehabilitation Research.2023; 46(4): 316. CrossRef
Conservative interventions to improve foot progression angle and clinical measures in orthopedic and neurological patients – A systematic review and meta-analysis
Reslin Schelhaas, Mahdieh Hajibozorgi, Tibor Hortobágyi, Juha M. Hijmans, Christian Greve
Journal of Biomechanics.2022; 130: 110831. CrossRef
Effects of elastic neutral ankle-foot orthoses on 3 dimensional parameters during gait training in patients with stroke: A pilot study
Young-In Hwang, Du-Jin Park
Journal of Bodywork and Movement Therapies.2021; 27: 300. CrossRef
A Clinical Practice Guideline for the Use of Ankle-Foot Orthoses and Functional Electrical Stimulation Post-Stroke
Therese E. Johnston, Sarah Keller, Caitlin Denzer-Weiler, Lisa Brown
Journal of Neurologic Physical Therapy.2021; 45(2): 112. CrossRef
Effect of Spiral Elastic Band on Gait Function in Patients with Chronic Stroke
Ki hyun Baek, Hyoung won Lim
The Journal of Korean Physical Therapy.2019; 31(4): 169. CrossRef
Immediate Effect of Fabric Ankle Foot Orthosis on Balance in Children With Unilateral Cerebral Palsy
Yon-ju Sim, You-jin Yang, Chung-hwi Yi
Physical Therapy Korea.2015; 22(2): 52. CrossRef
Immediate Effect of Fabric Ankle-Foot Orthosis on Spatiotemporal Gait Parameters in Children With Spastic Cerebral Palsy
Yon-Ju Sim, Dong-Ryul Lee, Chung-Hwi Yi
Physical Therapy Korea.2014; 21(1): 29. CrossRef
Effects of elastic band orthosis (aider) on balance and gait in chronic stroke patients
Noha Daher, Seungjun Lee, You Jin Yang
Physical Therapy Rehabilitation Science.2013; 2(2): 81. CrossRef

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Effects of Plastic Ankle-Foot Orhtosis on Hemiplegic Ambulation.: Rah, Ueon Woo , Yang, Jung In , Lee, Il Yung , Park, Hyoung Koo , Park, Sang Il , Im, Seon Hee , Moon, Hae Won , Cho, Ja Ryong; J Korean Acad Rehabil Med 2001;25(5):836-841.

Abstract
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Objective: This study was performed to investigate the energy expenditure at self-selected comfortable and fast walking speeds with or without plastic ankle-foot orthosis in hemiplegic patients.

Method: Objects of this study were 10 ambulatory hemiplegic patients. To estimate oxygen consumption, we used K2 machine and measured gait speed, stride length, stride frequency, and heart rate energy expenditure index (EEI) with or without plastic ankle-foot orthosis.

Results: Stride length and gait speed of the hemiplegic patients with plastic ankle-foot orthosis significantly increased at their comfortable walking speed pattern. Oxygen consumption, oxygen cost and EEI significantly decreased in hemiplegic patients with plastic ankle-foot orthosis whether their gait speed pattern.

Conclusion: The plastic ankle-foot orthosis is useful for the hemiplegic patients to increase walking speed and to reduce energy expenditure.