Heel Rise and Non-Weight-Bearing Ankle Plantar Flexion Tasks to Assess Foot and Ankle Function in People With Diabetes Mellitus and Peripheral Neuropathy

Overview

Journal Phys Ther

Publisher Oxford University Press

Specialty Rehabilitation Medicine

Date 2021 Mar 18

PMID 33735386

Citations 5

Authors

Hyo-Jung Jeong

Michael J Mueller

Jennifer A Zellers

Yan Yan

Mary K Hastings

Affiliations

Soon will be listed here.

Abstract

Objective: The objective of this study was to examine the effects of diabetes mellitus and peripheral neuropathy (DMPN), limited joint mobility, and weight-bearing on foot and ankle sagittal movements and characterize the foot and ankle position during heel rise.

Methods: Sixty people with DMPN and 22 controls participated. Primary outcomes were foot (forefoot on hindfoot) and ankle (hindfoot on shank) plantar-flexion/dorsiflexion angle during 3 tasks: unilateral heel rise, bilateral heel rise, and non-weight-bearing ankle plantar flexion. A repeated-measures analysis of variance and Fisher exact test were used.

Results: Main effects of task and group were significant, but not the interaction in both foot and ankle plantar flexion. Foot and ankle plantar flexion were less in people with DMPN compared with controls in all tasks. Both DMPN and control groups had significantly less foot and ankle plantar flexion with greater weight-bearing; however, the linear trend across tasks was similar between groups. The DMPN group had a greater percentage of individuals in foot and/or ankle dorsiflexion at peak unilateral heel rise compared with controls, but the foot and ankle position was similar at peak bilateral heel rise between DMPN and control groups.

Conclusion: Foot and ankle plantar flexion is less in people with DMPN. Less plantar flexion in non-weight-bearing suggests that people with DMPN have limited joint mobility. However, peak unilateral and bilateral heel rise is less than the available plantar flexion range of motion measured in non-weight-bearing, indicating that limited joint mobility does not limit heel rise performance. A higher frequency of people with DMPN are in foot and ankle dorsiflexion at peak unilateral heel rise compared with controls, but the position improved with lower weight-bearing.

Impact: Proper resistance should be considered with physical therapist interventions utilizing heel rise because foot and ankle plantar flexion position could be improved by reducing the amount of weight-bearing.

Citing Articles

Use of computed tomography to identify muscle quality subgroups, spatial mapping, and preliminary relationships to function in those with diabetic peripheral neuropathy.

Kaszyk E, Commean P, Meyer G, Smith G, Jeong H, York A Gait Posture. 2024; 112:159-166.

PMID: 38797052 PMC: 11265324. DOI: 10.1016/j.gaitpost.2024.05.016.

Classification of chronic ankle instability using machine learning technique based on ankle kinematics during heel rise in delivery workers.

Hwang U, Kwon O, Kim J, Gwak G Digit Health. 2024; 10:20552076241235116.

PMID: 38419804 PMC: 10901058. DOI: 10.1177/20552076241235116.

Midfoot and ankle movement coordination during heel rise is disrupted in people with diabetes and peripheral neuropathy.

Jeong H, Cha B, Zellers J, Chen L, Hastings M Clin Biomech (Bristol). 2022; 96:105662.

PMID: 35569256 PMC: 9616002. DOI: 10.1016/j.clinbiomech.2022.105662.

Body mass index and maximum available midfoot motion are associated with midfoot angle at peak heel rise in people with type 2 diabetes mellitus and peripheral neuropathy.

Jeong H, Mueller M, Zellers J, Commean P, Chen L, Hastings M Foot (Edinb). 2022; 51:101912.

PMID: 35255403 PMC: 9169461. DOI: 10.1016/j.foot.2022.101912.

Midfoot and ankle motion during heel rise and gait are related in people with diabetes and peripheral neuropathy.

Jeong H, Mueller M, Zellers J, Hastings M Gait Posture. 2020; 84:38-44.

PMID: 33264731 PMC: 8330810. DOI: 10.1016/j.gaitpost.2020.11.013.

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