Diseño, modelado 3D y optimización del comportamiento mecanoacústico de un nuevo tubo de ventilación transtimpánico
- Vallejo-Valdezate, Luis Ángel 1
- Bragado, Angélica 1
- Hidalgo-Otamendi, Antonio 1
- Gil-Carcedo, Elisa 1
- Herrero-Calvo, David 1
- Fernandez-Cascón, Sara
-
1
Universidad de Valladolid
info
ISSN: 2444-7986, 2444-7986
Año de publicación: 2020
Volumen: 11
Volumen: 4
Páginas: 413-425
Tipo: Artículo
Otras publicaciones en: Revista ORL
Resumen
Introduction and Objetive: We show a new trans-tympanic ventilation tube whose design and mass are intended to solve the undesirable effects that appeared during the insertion of currently commercialized ventilation tubes; We analyze its mechanical behavior in a 3D model of the ear in order to optimize its acoustic behavior. Methods: For the design of the tube an autoCAD software was used; The mechanical behavior was analyzed in a 3D dynamic computerized model of the human ear based on the finite element method (FEM). Results: The new ventilation tube has a size and mass significantly smaller than those currently available in the market, which causes less interference in the vibration of the eardrum-osicular system; Its design facilitates it to remain inserted while the patient's conditions so advise avoiding its fall into the middle ear cavity or its early extrusion. Conclusions: The biological and acoustic advantages of the new developed tube (with less mass and whose design avoids the complications of the current ones) can open a new possibility of treatment of chronic seromucous otitis media.
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