Study of the behavior of TORP middle ear prostheses of various lengths by the finite element method

Omar, Khatir; Sidi Mohamed, Fekih; Hamada, Atef; Abderahmene, Sahli; Yaylacı, Murat; Abdelkader, Benkhettou; Ismail, Boudjemaa; Tahraoui, Adel; Bouiadjraa, Belabbes Bachir

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Date

2024

Author

Omar, Khatir
Sidi Mohamed, Fekih
Hamada, Atef
Abderahmene, Sahli
Yaylacı, Murat
Abdelkader, Benkhettou
Ismail, Boudjemaa
Tahraoui, Adel
Bouiadjraa, Belabbes Bachir

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Citation

Omar, K., Sidi Mohamed, F., Hamada, A., Abderahmene, S., Yaylaci, M., Abdelkader, B., Ismail, B., Tahraoui, A., & Bouiadjraa, B. B. (2024). Study of the behavior of TORP middle ear prostheses of various lengths by the finite element method. Mechanics of Advanced Materials and Structures, 1–9. https://doi.org/10.1080/15376494.2024.2438903

Abstract

Advancements in audiology and medical engineering have sparked growing interest in enhancing titanium implants used for middle ear repair. In our study, we employed a numerical simulation model of the middle ear to investigate how the TORP prosthesis behaves under an acoustic pressure of 90 dB across a frequency range from 250 to 8000 Hz. Additionally, we varied the prosthesis length, utilizing three different lengths, and modified the prosthesis design to assess its mechanical impact. Our findings indicate that changes in prosthesis length do not significantly alter outcomes for patients. Moreover, these variations do not pose any danger or compromise the auditory performance of patients, emphasizing the safety and efficacy of TORP prostheses in middle ear repair.

Source

Mechanics of Advanced Materials and Structures

URI

https://doi.org/10.1080/15376494.2024.2438903
https://hdl.handle.net/11436/9854

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