Numerical study of a customized transtibial prosthesis based on an analytical design under a flex-foot® variflex® architecture

Marco Antonio Hernández-Acosta; Christopher René Torres-San Miguel; Armando Josue Piña-Díaz; Juan Carlos Paredes-Rojas; Luis Antonio Aguilar-Peréz; Guillermo Urriolagoitia-Sosa

doi:10.3390/app10124275

Numerical study of a customized transtibial prosthesis based on an analytical design under a flex-foot® variflex® architecture

Marco Antonio Hernández-Acosta, Christopher René Torres-San Miguel, Armando Josue Piña-Díaz, Juan Carlos Paredes-Rojas, Luis Antonio Aguilar-Peréz, Guillermo Urriolagoitia-Sosa

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3 Citas (Scopus)

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© 2020 by the authors. This work addresses the design, analysis, and validation of a transtibial custom prosthesis. The methodology consists of the usage of videometry to analyze angular relationships between joints, moments, and reaction forces in the human gait cycle. The customized geometric model of the proposed prosthesis was defined by considering healthy feet for the initial design. The prosthesis model was developed by considering the Flex-Foot® Variflex® architecture on a design basis. By means of the analytical method, the size and material of the final model were calculated. The behavior of the prosthesis was evaluated analytically by a curved elements analysis and the Castigliano theorem, and numerically by the Finite Element Method (FEM). The outcome shows the differences between the analytical and numerical methods for the final prosthesis design, with an error rate no greater than 6.5%.

Idioma original	Inglés estadounidense
Publicación	Applied Sciences (Switzerland)
DOI	https://doi.org/10.3390/app10124275
Estado	Publicada - 1 jun. 2020

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title = "Numerical study of a customized transtibial prosthesis based on an analytical design under a flex-foot{\textregistered} variflex{\textregistered} architecture",

abstract = "{\textcopyright} 2020 by the authors. This work addresses the design, analysis, and validation of a transtibial custom prosthesis. The methodology consists of the usage of videometry to analyze angular relationships between joints, moments, and reaction forces in the human gait cycle. The customized geometric model of the proposed prosthesis was defined by considering healthy feet for the initial design. The prosthesis model was developed by considering the Flex-Foot{\textregistered} Variflex{\textregistered} architecture on a design basis. By means of the analytical method, the size and material of the final model were calculated. The behavior of the prosthesis was evaluated analytically by a curved elements analysis and the Castigliano theorem, and numerically by the Finite Element Method (FEM). The outcome shows the differences between the analytical and numerical methods for the final prosthesis design, with an error rate no greater than 6.5%.",

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month = jun,

day = "1",

doi = "10.3390/app10124275",

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journal = "Applied Sciences (Switzerland)",

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Numerical study of a customized transtibial prosthesis based on an analytical design under a flex-foot® variflex® architecture. / Hernández-Acosta, Marco Antonio; Torres-San Miguel, Christopher René; Piña-Díaz, Armando Josue et al.
En: Applied Sciences (Switzerland), 01.06.2020.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Numerical study of a customized transtibial prosthesis based on an analytical design under a flex-foot® variflex® architecture

AU - Hernández-Acosta, Marco Antonio

AU - Torres-San Miguel, Christopher René

AU - Piña-Díaz, Armando Josue

AU - Paredes-Rojas, Juan Carlos

AU - Aguilar-Peréz, Luis Antonio

AU - Urriolagoitia-Sosa, Guillermo

PY - 2020/6/1

Y1 - 2020/6/1

N2 - © 2020 by the authors. This work addresses the design, analysis, and validation of a transtibial custom prosthesis. The methodology consists of the usage of videometry to analyze angular relationships between joints, moments, and reaction forces in the human gait cycle. The customized geometric model of the proposed prosthesis was defined by considering healthy feet for the initial design. The prosthesis model was developed by considering the Flex-Foot® Variflex® architecture on a design basis. By means of the analytical method, the size and material of the final model were calculated. The behavior of the prosthesis was evaluated analytically by a curved elements analysis and the Castigliano theorem, and numerically by the Finite Element Method (FEM). The outcome shows the differences between the analytical and numerical methods for the final prosthesis design, with an error rate no greater than 6.5%.

AB - © 2020 by the authors. This work addresses the design, analysis, and validation of a transtibial custom prosthesis. The methodology consists of the usage of videometry to analyze angular relationships between joints, moments, and reaction forces in the human gait cycle. The customized geometric model of the proposed prosthesis was defined by considering healthy feet for the initial design. The prosthesis model was developed by considering the Flex-Foot® Variflex® architecture on a design basis. By means of the analytical method, the size and material of the final model were calculated. The behavior of the prosthesis was evaluated analytically by a curved elements analysis and the Castigliano theorem, and numerically by the Finite Element Method (FEM). The outcome shows the differences between the analytical and numerical methods for the final prosthesis design, with an error rate no greater than 6.5%.

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Numerical study of a customized transtibial prosthesis based on an analytical design under a flex-foot® variflex® architecture

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