Development of a test bench for insertion force measurements with precise orientation of specimen using a stereo optical navigation system

S Hügl; M Henke; LA Kahrs; T Ortmaier; T Lenarz; TS Rau

doi:10.1055/s-0039-1686402

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CC BY-NC-ND 4.0 · Laryngorhinootologie 2019; 98(S 02): S316
DOI: 10.1055/s-0039-1686402

Poster

Otology

Development of a test bench for insertion force measurements with precise orientation of specimen using a stereo optical navigation system

S Hügl

¹Medizinische Hochschule Hannover, Klinik für HNO, Hannover

,

M Henke

¹Medizinische Hochschule Hannover, Klinik für HNO, Hannover

,

LA Kahrs

²Institut für Mechatronische Systeme, Leibniz Universität Hannover, Hannover

,

T Ortmaier

²Institut für Mechatronische Systeme, Leibniz Universität Hannover, Hannover

,

T Lenarz

¹Medizinische Hochschule Hannover, Klinik für HNO, Hannover

,

TS Rau

¹Medizinische Hochschule Hannover, Klinik für HNO, Hannover

› InstitutsangabenAutoren (S. Hügl und M. Henke) trugen gleichermaßen bei. Das Projekt wird im Rahmen des Exzellenzcluster EXC 1077/1 "Hearing4all" gefördert.

› Weitere Informationen

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Volltext

During development and evaluation of new cochlear implant electrode arrays (EAs) and their insertion technique, insertions are conducted in human temporal bone samples including insertion force measurements, as automated insertions provide the necessary standardization. The EA has to be positioned in a highly accurate manner to the basal turn of the cochlea and the force sensor to achieve valuable measurements. A new test bench and corresponding software was developed to fit into the very small measuring volume of the highly accurate stereo optical measuring system (CamBar B1, Axios3D).

First, the specimen was glued into a small pot, mounted into a half-shell and scanned. The insertion axis within the basal turn of the cochlea and the direction of its rotation were determined based on that scan. Registration spheres on the half-shell were touched with a pointertool to transfer the plan onto the real position of the specimen. Retro-reflective markers were attached to both, pointertool and half-shell, to ensure traceability by the stereo camera. The tracked location of insertion axis and specimen were used by the software to show the position deviation between specimen and plan. To adjust the rotational degrees of freedom, the specimen's half-shell can be manually moved within another bigger half-shell through levers. After adjustment, the half-shell with the specimen was glued onto a plate under which the force sensor (KD24 s, ME-Messsysteme) was mounted.

The developed test bench provides easy and fast handling, as well as a favourable pressure relief for the force sensor during adjustment of the specimen. Further experiments serve for quantitative determination of the achievable accuracy.

Publikationsverlauf

Publikationsdatum:
23. April 2019 (online)

© 2019. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial-License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/).

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