R. Kent Dyer scite author profile

The middle ear as a levered vibrating system for sound transmission from the external to the inner ear is affected by changes in ossicular chain mass. Mass loading of the ossicles may impair ossicular dynamics and sound transmission to the inner ear. It is incumbent on otologic surgeons and researchers of middle ear mechanics to consider the mass loading effect on middle ear function in clinical and physiological applications. The residual hearing and frequency response can change after surgery or implantation of middle ear prostheses. We conducted experiments on mass loading effects on the middle ear transfer functions by using laser Doppler interferometry and a human temporal bone model. Two implant mass loading conditions were tested on 17 fresh or fresh-frozen temporal bones and compared with the unloaded condition for the frequencies 250 to 8,000 Hz. The results show that the linearity of the middle ear function did not change, although displacement of the stapes footplate decreased after the increased masses were placed on the incudostapedial joint. The greater the mass of the implant, the less displacement was measured at the stapes footplate. We conclude that there is a quantitative limit to increased mass on the ossicular chain above which the mass will remarkably impair hearing thresholds.

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An advanced computer-aided geometric modeling and fabrication method for human middle ear

Sun

Chang

Dormer

et al. 2002

Medical Engineering & Physics

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Early Clinical Results: SOUNDTEC Implantable Hearing Device Phase II Study

et al. 2001

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Analysis of data on the first 10 subjects using the SOUNDTEC DDHS indicates positive outcomes regarding safety and efficacy, although the small sample size is not sufficient to permit valid statistical inferences to be drawn from our preliminary data. Results also demonstrate improvement in performance compared with the subjects' optimally fit hearing aids and an improvement in quality of life as demonstrated by objective and subjective tests and measures.

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R. Kent Dyer

Three-dimensional Modeling of Middle Ear Biomechanics and Its Applications

Mass Loading on the Ossicles and Middle Ear Function

An advanced computer-aided geometric modeling and fabrication method for human middle ear

Early Clinical Results: SOUNDTEC Implantable Hearing Device Phase II Study

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