Staffordshire University logo
STORE - Staffordshire Online Repository

An investigation into the hammer toe effects on the lower extremity mechanics and plantar fascia tension: A case for a vicious cycle and progressive damage

Moayedi, M., Arshi, A.R., Salehi, M., Akrami, M., Javadi Asl, N. and Naemi, R. (2022) An investigation into the hammer toe effects on the lower extremity mechanics and plantar fascia tension: A case for a vicious cycle and progressive damage. Computers in Biology and Medicine. p. 106381. ISSN 00104825

[img]
Preview
Text
Moayedi_et_al_2022_Final_Complete.pdf - AUTHOR'S ACCEPTED Version (default)
Available under License Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0).

Download (1MB) | Preview

Abstract or description

Hammer toes are one of the common deformities of the forefoot that can lead to compensatory changes during walking in individuals with this condition. Predicting the adverse effects of tissue damage on the performance of other limbs is very important in the prevention of progressive damage. Finite element (FE) and musculoskeletal modeling can be helpful by allowing such effects to be studied in a way where the internal stresses in the tissue could be investigated. Hence, this study aims to investigate the side effects of the hammer toe deformity on the lower extremity, especially on the plantar fascia functions. To compare the joint reactions of the hammer toe and healthy foot (HF), two musculoskeletal models (MSM) of the healthy and the hammer toe foot (HTF) participants were developed based on gait analysis. A previously validated 3D finite element model which was constructed using Magnetic Resonance Imaging (MRI) of the diabetic participant with the hammer toe deformity was processed at five different events during the stance phase of gait.

It was found that the hammer toe deformity makes dorsiflexion of the toes and the windlass mechanism less effective during walking. Specifically, the FE analysis results showed that plantar fascia (PF) in HTF compared to HF played a less dominant role in load bearing with both medial and lateral parts loaded. Also, the results indicated that the stored elastic energy in PF was less in HTF than the HF, which can indicate a metabolic cost during walking. Internal stress distribution shows that the majority of ground reaction forces are transmitted through the lateral metatarsals in hammer toe foot, and the probability of fifth metatarsal fracture and also progressive deformity like tailor's bunion was subsequently increased. The MSM results showed that the joint reaction forces and moments in the hammer toe foot have deviated from normal function, with the metatarsophalangeal joint showing that the reactions in the hammer toe are less than in the healthy foot. This can indicate a vicious cycle of foot deformity, increased internal stresses, change in muscle forces and joint kinetics, and plantar fascia tensile forces from normal, which can lead to an increase in the risk of ulceration in the diabetic foot.

Item Type: Article
Uncontrolled Keywords: Plantar fascia, Hammer toe, Finite element analysis, Plantar soft tissue, Diabetic foot ulcer
Faculty: School of Life Sciences and Education > Sport and Exercise
Depositing User: Roozbeh NAEMI
Date Deposited: 20 Dec 2022 11:31
Last Modified: 10 Dec 2023 01:38
URI: https://eprints.staffs.ac.uk/id/eprint/7572

Actions (login required)

View Item View Item

DisabledGo Staffordshire University is a recognised   Investor in People. Sustain Staffs
Legal | Freedom of Information | Site Map | Job Vacancies
Staffordshire University, College Road, Stoke-on-Trent, Staffordshire ST4 2DE t: +44 (0)1782 294000