Litcius/Paper detail

Inaccuracies of deterministic finite-element models of human middle ear revealed by stochastic modelling

Arash Ebrahimian, Hossein Mohammadi, John J. Rosowski, Jeffrey Cheng, Nima Maftoon

2023Scientific Reports15 citationsDOIOpen Access PDF

Abstract

For over 40 years, finite-element models of the mechanics of the middle ear have been mostly deterministic in nature. Deterministic models do not take into account the effects of inter-individual variabilities on middle-ear parameters. We present a stochastic finite-element model of the human middle ear that uses variability in the model parameters to investigate the uncertainty in the model outputs (umbo, stapes, and tympanic-membrane displacements). We demonstrate: (1) uncertainties in the model parameters can be magnified by more than three times in the umbo and stapes footplate responses at frequencies above 2 kHz; (2) middle-ear models are biased and they distort the output distributions; and (3) with increased frequency, the highly-uncertain regions spatially spread out on the tympanic membrane surface. Our results assert that we should be mindful when using deterministic finite-element middle-ear models for critical tasks such as novel device developments and diagnosis.

Topics & Concepts

Middle earFootplateStapesFinite element methodHuman earComputer scienceStochastic modellingAcousticsMathematicsStructural engineeringPhysicsAnatomyEngineeringStatisticsBiologyMechanical engineeringSpeech and Audio ProcessingUnderwater Acoustics ResearchUltrasonics and Acoustic Wave Propagation