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Image-based midsole insert design and the material effects on heel plantar pressure distribution during simulated walking loads
Authors:Y. D. Gu  J. S. Li  M. J. Lake  Y. J. Zeng  X. J. Ren  Z. Y. Li
Affiliation:1. Faculty of Sport Science, Ningbo University , Zhejiang, 315211, P.R. China;2. School of Biological Science and Medical Engineering, Southeast University , Jiangsu, 210096, P.R. China guyaodong@hotmail.com;4. Faculty of Sport Science, Ningbo University , Zhejiang, 315211, P.R. China;5. School of Sport and Exercise Sciences, Liverpool John Moores University , Liverpool, L3 2ET, UK;6. Biomedical Engineering Center, Beijing University of Technology , Beijing, 100124, P.R. China;7. School of Engineering, Liverpool John Moores University , Liverpool, L3 3AF, UK;8. School of Biological Science and Medical Engineering, Southeast University , Jiangsu, 210096, P.R. China
Abstract:The primary objective of this paper is to study the use of medical image-based finite element (FE) modelling in subject-specific midsole design and optimisation for heel pressure reduction using a midsole plug under the calcaneus area (UCA). Plugs with different relative dimensions to the size of the calcaneus of the subject have been incorporated in the heel region of the midsole. The FE foot model was validated by comparing the numerically predicted plantar pressure with biomechanical tests conducted on the same subject. For each UCA midsole plug design, the effect of material properties and plug thicknesses on the plantar pressure distribution and peak pressure level during the heel strike phase of normal walking was systematically studied. The results showed that the UCA midsole insert could effectively modify the pressure distribution, and its effect is directly associated with the ratio of the plug dimension to the size of the calcaneus bone of the subject. A medium hardness plug with a size of 95% of the calcaneus has achieved the best performance for relieving the peak pressure in comparison with the pressure level for a solid midsole without a plug, whereas a smaller plug with a size of 65% of the calcaneus insert with a very soft material showed minimum beneficial effect for the pressure relief.
Keywords:midsole  plantar pressure  finite element model  CT images subject-specific design  heel pad
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