Ergonomics applied to the development and evaluation of insoles for protective footwear

Ergonomics applied to the development and evaluation of insoles for protective footwear

Knowledge of ergonomics/human factors plays an important role in the creation and design of safety shoes and insoles, contributing to worker protection, comfort, and stability. The purpose of this study is to compare previous insole designs and analyze the plantar pressure and gait pattern kinematic...

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Bibliographic Details
Published in:Applied sciences Vol. 13; no. 10; pp. 1 - 16
Main Authors: Lima, Ana Lúcia Gadelha Moura, Costa, Susana Raquel Pinto, Costa, Nélson Bruno Martins Marques da, Leão, Celina Pinto, Moraes, Anna Sophia Piacenza, Carvalho, Miguel, Atalaia, Tiago, Martins, Rodrigo B., Martiniano, João, Arezes, P., Duarte, F. M.
Format: Journal Article
Language:English
Published: Basel Multidisciplinary Digital Publishing Institute 01-05-2023
MDPI AG
Subjects:
Adhesives
Analysis
Biomechanical engineering
Biomechanics
Classification
Data collection
Ergonomics
Feet
Footwear
Gait
Gait analysis
Heels
Human factors
Innovations
Insoles
Kinematics
Laboratories
Load distribution
Oxford foot model
Plantar pressure
Pressure
Protective clothing
Protective equipment
Safety engineering
Shoes
Shoes & boots
Walking
Work stations
United Kingdom
Portugal
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Summary:Knowledge of ergonomics/human factors plays an important role in the creation and design of safety shoes and insoles, contributing to worker protection, comfort, and stability. The purpose of this study is to compare previous insole designs and analyze the plantar pressure and gait pattern kinematics using the Oxford foot model protocol. The tests were performed comparing the environments on the three rockers of the gait, represented by the heel, midfoot, and forefoot, according to the classification of foot type. The analysis of plantar pressure, regarding its total and maximum distribution, showed that the innovative insole presents a better load distribution in terms of the maximum plantar pressure exerted in the hindfoot and forefoot regions. In the biomechanical analysis of gait, the five variables studied did not show variation in the normal mechanics of the foot in any of the three environments considered. The hallux joint was the one that presented the greatest divergences with the barefoot in terms of amplitude and variability, as expected. SHOE@FUTURE: Technological Solutions for Professional Footwear, POCI-01-0247-FEDER-033835, co-financed by the European Regional Development Fund (FEDER) through the Competitiveness and Internationalization Operational Program under the “Portugal 2020” Program. This work has been supported by FCT—Fundação para a Ciência e Tecnologia within the R&D Units Project Scope: UIDB/00319/2020.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13106207