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Acoustomechanical properties of open TTP ® titanium middle ear prostheses

Objective: The purpose of the study was to identify acoustcomechanical properties of various biostable and biocompatible materials to create a middle ear prosthesis with the following properties: (i) improved handling including a good view of the head of the stapes or footplate and adjustable length...

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Bibliographic Details
Published in:Hearing research 2004-06, Vol.192 (1), p.36-46
Main Authors: Zenner, H.P., Freitag, H.-G., Linti, C., Steinhardt, U., Rodriguez Jorge, J., Preyer, S., Mauz, P.-S., Sürth, M., Planck, H., Baumann, I., Lehner, R., Eiber, A.
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Language:English
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Summary:Objective: The purpose of the study was to identify acoustcomechanical properties of various biostable and biocompatible materials to create a middle ear prosthesis with the following properties: (i) improved handling including a good view of the head of the stapes or footplate and adjustable length, (ii) improved acoustical characteristics that are adequate for ossiculoplastic. The identified material should serve to build CE and FDA approved prostheses for clinical use in patients. Methods: Test models made of Teflon, polyetheretherketone, polyethylenterephtalate, polysulfone, gold, Al 2O 3 ceramics, carbon and titanium were investigated for their potential to fulfill the requirements. Acoustical properties were investigated by laser Doppler velocimetry (LDV) in mechanical middle ear models (MMM). Measured data were fed in to a recently created computer model of the middle ear (multibody systems approach, MBS). Using computer-aided design (CAD) measured and computed data allowed creation and fine precision of titanium prostheses (Tübingen Titanium Protheses, TTP ®). Their handling was tested in temporal bones. Acoustomechanical properties were investigated using the MBS and mechanical middle ear models. Main outcome measures: Input impedance, mass, stiffness, and geometry of test models and prostheses were determined. Furthermore, their influence on the intraprosthetic transfer functions and on coupling to either tympanic membrane or stapes was investigated. Results: Final results were FDA- and CE-approved filigreed titanium prostheses with an open head that fulfilled the four requirements detailed above. The prostheses (TTP ®) were developed in defined lengths of between 1.75 and 3.5 mm (partial) and 3.0 and 6.5 mm (total) as well as in adjustable lengths (TTP-Vario ®). Conclusions: The results suggest acoustomechanical advantages of TTPs ® because they combine a significantly low mass with high stiffness. In contrast to closed prostheses, the open head and filigreed design allow an excellent view of the prosthesis foot during coupling to the head or footplate of stapes, contributing to an improved intraoperative reliability of prosthesis coupling.
ISSN:0378-5955
1878-5891
DOI:10.1016/j.heares.2004.02.004