Development of a preliminary finite element model to assess the effects of friction on the residual limb of a transfemoral amputee

Ramalho, Armando; Ferraz, Miguel; Gaspar, Marcelo; Capela, Carlos

http://hdl.handle.net/10400.8/14324

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Development of a preliminary finite element model to assess the effects of friction on the residual limb of a transfemoral amputee.pdf	The use of numerical modelling tools allows optimizing the development of complex anatomical artefacts, such as customized prostheses for lower limb amputees. These numerical tools make it possible to characterize the interfacial interactions taking place between different parts of the prosthesis and the residual limb. This allows for understanding which rectifications and fittings having to be made on the custom design of the artificial body part without the need for manufacturing and donning prostheses. To such end, current research focused on the development of a preliminary Finite Element Model to assess the effects of friction on the residual limb of a transfemoral amputee, as the friction on the contact between the soft tissues, the liner and the prosthesis of the amputee is of major importance for his/her health and comfort.	2.34 MB	Adobe PDF	Download

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Abstract(s)

The use of numerical modelling tools allows optimizing the development of complex anatomical artefacts, such as customized prostheses for lower limb amputees. These numerical tools make it possible to characterize the interfacial interactions taking place between different parts of the prosthesis and the residual limb. This allows for understanding which rectifications and fittings having to be made on the custom design of the artificial body part without the need for manufacturing and donning prostheses. To such end, current research focused on the development of a preliminary Finite Element Model to assess the effects of friction on the residual limb of a transfemoral amputee, as the friction on the contact between the soft tissues, the liner and the prosthesis of the amputee is of major importance for his/her health and comfort.

Description

Conference name - 10th International Conference on Key Engineering Materials, ICKEM 2020; Conference date - 26 March 2020 - 29 March 2020; Conference code - 167631
Ferraz, Miguel - Scopus ID: 57222368384

Keywords

Finite element analysis Prosthetic liner Interfacial stresses Amputee Patient comfort and health Customized medical devices

URI

http://hdl.handle.net/10400.8/14324

Citation

Armando Ramalho, Miguel Ferraz, Marcelo Gaspar, Carlos Capela, Development of a preliminary finite element model to assess the effects of friction on the residual limb of a transfemoral amputee, Materials Today: Proceedings, Volume 33, Part 4, 2020, Pages 1859-1863, ISSN 2214-7853, https://doi.org/10.1016/j.matpr.2020.05.199.