1. A MEMS Condenser Microphone-Based Intracochlear Acoustic Receiver.
- Author
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Pfiffner F, Prochazka L, Peus D, Dobrev I, Dalbert A, Sim JH, Kesterke R, Walraevens J, Harris F, Roosli C, Obrist D, and Huber A
- Subjects
- Computer-Aided Design, Equipment Design, Equipment Failure Analysis, Humans, Pressure, Reproducibility of Results, Sensitivity and Specificity, Cochlea physiology, Cochlear Implants, Manometry instrumentation, Micro-Electrical-Mechanical Systems instrumentation, Sound Spectrography instrumentation, Transducers
- Abstract
Goal: Intracochlear sound pressure (ICSP) measurements are limited by the small dimensions of the human inner ear and the requirements imposed by the liquid medium. A robust intracochlear acoustic receiver (ICAR) for repeated use with a simple data acquisition system that provides the required high sensitivity and small dimensions does not yet exist. The work described in this report aims to fill this gap and presents a new microelectromechanical systems (MEMS) condenser microphone (CMIC)-based ICAR concept suitable for ICSP measurements in human temporal bones., Methods: The ICAR head consisted of a passive protective diaphragm (PD) sealing the MEMS CMIC against the liquid medium, enabling insertion into the inner ear. The components of the MEMS CMIC-based ICAR were expressed by a lumped element model (LEM) and compared to the performance of successfully fabricated ICARs., Results: Good agreement was achieved between the LEM and the measurements with different sizes of the PD. The ICSP measurements in a human cadaver temporal bone yielded data in agreement with the literature., Conclusion: Our results confirm that the presented MEMS CMIC-based ICAR is a promising technology for measuring ICSP in human temporal bones in the audible frequency range., Significance: A sensor for evaluation of the biomechanical hearing process by quantification of ICSP is presented. The concept has potential as an acoustic receiver in totally implantable cochlear implants.
- Published
- 2017
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