Análisis biomecánico del pie protésico Bioc-dm2
Walking is one of the aspects directly compromising human wellbeing, as it has a physical and emotional impact in daily life. For this study, we delve into the challenge of improving some walking conditions in a patient suffering lower limb loss, specifically at transtibial or transfemoral levels. G...
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Editorial Universitaria
2019
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oai:doaj.org-article:fde430a3b4ad4efb81ff4cac4d6345d72021-11-16T19:00:59ZAnálisis biomecánico del pie protésico Bioc-dm21680-88942219-671410.33412/idt.v15.1.2102https://doaj.org/article/fde430a3b4ad4efb81ff4cac4d6345d72019-01-01T00:00:00Zhttps://revistas.utp.ac.pa/index.php/id-tecnologico/article/view/2102https://doaj.org/toc/1680-8894https://doaj.org/toc/2219-6714Walking is one of the aspects directly compromising human wellbeing, as it has a physical and emotional impact in daily life. For this study, we delve into the challenge of improving some walking conditions in a patient suffering lower limb loss, specifically at transtibial or transfemoral levels. Given that our purpose was the analysis, design and manufacture of a lower-limb prosthetic component, which fills the needs for functionality, it became necessary to build a foot with all the quality standards associated to each and all movements required to form the complex fundamental pattern of walking. Besides, this foot should also easily endure weight, daily use and physical characteristics of the patient object of this study. When performing physical validation and during human walk, a proper response is observed in terms of mechanics, materials and dynamics of the component, thus making evident proper construction and assembly. On the other hand, it is feasible that design and verification of the component provided a competitive element, as compared to existing elements currently in the market. The previous situation generated the need for verification from the National Institute for Medications and Food (INVIMA), as well as the revision of the use replying device, for component verification, in accordance with ISO 10328.Jhon Hernandez MartinOscar Heli BejaranoEdwin Yamith MartínezLuis A. Parra PiñerosJairo Alberto RomeroFran Eduard PerezPhillipe Meziat CastroEditorial Universitariaarticlebiomechanical, gait analysis, foot, prosthesis, transfemoral.BiotechnologyTP248.13-248.65ESRevista de I + D Tecnológico, Vol 15, Iss 1, Pp 80-86 (2019) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
ES |
| topic |
biomechanical, gait analysis, foot, prosthesis, transfemoral. Biotechnology TP248.13-248.65 |
| spellingShingle |
biomechanical, gait analysis, foot, prosthesis, transfemoral. Biotechnology TP248.13-248.65 Jhon Hernandez Martin Oscar Heli Bejarano Edwin Yamith Martínez Luis A. Parra Piñeros Jairo Alberto Romero Fran Eduard Perez Phillipe Meziat Castro Análisis biomecánico del pie protésico Bioc-dm2 |
| description |
Walking is one of the aspects directly compromising human wellbeing, as it has a physical and emotional impact in daily life.
For this study, we delve into the challenge of improving some walking conditions in a patient suffering lower limb loss, specifically at transtibial
or transfemoral levels. Given that our purpose was the analysis, design and manufacture of a lower-limb prosthetic component, which fills the needs
for functionality, it became necessary to build a foot with all the quality standards associated to each and all movements required to form the
complex fundamental pattern of walking. Besides, this foot should also easily endure weight, daily use and physical characteristics of the patient
object of this study. When performing physical validation and during human walk, a proper response is observed in terms of mechanics, materials
and dynamics of the component, thus making evident proper construction and assembly. On the other hand, it is feasible that design and verification
of the component provided a competitive element, as compared to existing elements currently in the market. The previous situation generated the
need for verification from the National Institute for Medications and Food (INVIMA), as well as the revision of the use replying device, for
component verification, in accordance with ISO 10328. |
| format |
article |
| author |
Jhon Hernandez Martin Oscar Heli Bejarano Edwin Yamith Martínez Luis A. Parra Piñeros Jairo Alberto Romero Fran Eduard Perez Phillipe Meziat Castro |
| author_facet |
Jhon Hernandez Martin Oscar Heli Bejarano Edwin Yamith Martínez Luis A. Parra Piñeros Jairo Alberto Romero Fran Eduard Perez Phillipe Meziat Castro |
| author_sort |
Jhon Hernandez Martin |
| title |
Análisis biomecánico del pie protésico Bioc-dm2 |
| title_short |
Análisis biomecánico del pie protésico Bioc-dm2 |
| title_full |
Análisis biomecánico del pie protésico Bioc-dm2 |
| title_fullStr |
Análisis biomecánico del pie protésico Bioc-dm2 |
| title_full_unstemmed |
Análisis biomecánico del pie protésico Bioc-dm2 |
| title_sort |
análisis biomecánico del pie protésico bioc-dm2 |
| publisher |
Editorial Universitaria |
| publishDate |
2019 |
| url |
https://doaj.org/article/fde430a3b4ad4efb81ff4cac4d6345d7 |
| work_keys_str_mv |
AT jhonhernandezmartin analisisbiomecanicodelpieprotesicobiocdm2 AT oscarhelibejarano analisisbiomecanicodelpieprotesicobiocdm2 AT edwinyamithmartinez analisisbiomecanicodelpieprotesicobiocdm2 AT luisaparrapineros analisisbiomecanicodelpieprotesicobiocdm2 AT jairoalbertoromero analisisbiomecanicodelpieprotesicobiocdm2 AT franeduardperez analisisbiomecanicodelpieprotesicobiocdm2 AT phillipemeziatcastro analisisbiomecanicodelpieprotesicobiocdm2 |
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