Complex Stapes Motions in Human Ears

Sim, Jae Hoon; Chatzimichalis, Michail; Lauxmann, Michael; Röösli, Christof; Eiber, Albrecht; Huber, Alexander

doi:10.1007/s10162-010-0207-6

Cited by 81 publications

(74 citation statements)

References 14 publications

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“…Using a video measuring system, Gyo et al (1987) observed predominant piston-like movements only at low frequencies and complex movements at higher frequencies. Other studies in human and animals are in accordance with these findings (Asai et al 1999;Decraemer & Khanna 1999;Voss et al 2000;Hato et al 2003;Stenfelt and Goode 2005;Decraemer et al 2007;Ravicz et al 2008;Sim et al 2010a). Some previous studies, assuming that the annular ring of the stapes restricts motions of the stapes footplate in the plane of the footplate, considered piston-like motions (i.e., the translational motion in a direction perpendicular to the stapes footplate) and two rocking-like motions of the stapes (i.e., the two rotational motions along the long and short axes of the footplate) as primary motion components of the mammal stapes.…”

Section: Introductionsupporting

confidence: 71%

“…The two rocking-like components around the long and short axes of the footplate were summarized as only one rocking component, but they could have different influences. Compared to the motion forms found in guinea pigs, human stapes motions show somewhat higher rocking components, especially in the higher frequency range (Hato et al 2003;Sim et al 2010a). Therefore, a larger contribution of the rocking-component is expected in human hearing.…”

Section: Discussionmentioning

confidence: 76%

“…Some previous studies, assuming that the annular ring of the stapes restricts motions of the stapes footplate in the plane of the footplate, considered piston-like motions (i.e., the translational motion in a direction perpendicular to the stapes footplate) and two rocking-like motions of the stapes (i.e., the two rotational motions along the long and short axes of the footplate) as primary motion components of the mammal stapes. While it has not been proven that other motions of the stapes are insignificant, we shall assume, as have others (Hato et al 2003;Sim et al 2010a), that the piston-like motion and the two rocking motions dominate stapes mechanics.…”

Section: Introductionmentioning

confidence: 84%

See 2 more Smart Citations

Contribution of complex stapes motion to cochlea activation

Eiber¹,

Huber²,

Lauxmann³

et al. 2012

Hearing Research

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Section: Introductionsupporting

confidence: 71%

Section: Discussionmentioning

confidence: 76%

Section: Introductionmentioning

confidence: 84%

See 1 more Smart Citation

Contribution of complex stapes motion to cochlea activation

Eiber¹,

Huber²,

Lauxmann³

et al. 2012

Hearing Research

Self Cite

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“…approximately 7 dB instead of 4 dB at low frequencies), the mean responses for the 3 incus conditions show even greater similarity than for the stapes responses, particularly with regard to the amplitude responses, where there is near superposition up to stimulus frequencies as high as 6 kHz. The larger mean differences between the stapes responses for the 3 incus conditions, compared with those for the RW, is possibly due to the fact that the stapes footplate is known to have significant non-piston-like motion at high frequencies [Guinan and Peake, 1967;Decraemer et al, 2007;Sim et al, 2010], but nevertheless the middle-ear pressure gain as a function of frequency is known to be relatively smooth [Decraemer et al, 2007]. In this sense, the RW responses -being perhaps a more direct measure of intracochlear fluid dynamics -provide even greater confidence in the conclusion that the presence of the FMT has an insignificant effect on cochlear input.…”

Section: Acoustic Stimulationmentioning

confidence: 99%

Alternative Fixation of an Active Middle Ear Implant at the Short Incus Process

et al. 2013

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Introduction: Since 1996, the preferred approach for positioning the active middle-ear implant Vibrant Soundbridge© is a mastoidectomy and a posterior tympanotomy. With this device, placement of the floating mass transducer (FMT) on the long incus process is the standard method for treatment of mild-to-severe sensorineural hearing loss in the case of normal middle-ear anatomy. The aim of this study was to determine the vibrational effectiveness of FMT placement at the short incus process. Materials and Methods: An extended antrotomy and a posterior tympanotomy were performed in 5 fresh human temporal bones. As a control for normal middle-ear function, the tympanic membrane was stimulated acoustically and the vibration of the stapes footplate and the round-window (RW) membrane were (sequentially) measured by laser Doppler vibrometry. Vibration responses for coupling of an FMT to the long incus process (standard coupling) were compared to those for coupling to the short incus process. Results: Apart from narrow frequency bands near 3 and 9 kHz for the stapes footplate and RW membrane, respectively, the velocity responses presented no significant differences between standard coupling of the FMT and coupling to the short incus process. Conclusion: Coupling the FMT to the short incus process may be a viable alternative in cases where the surgical approach is limited to an extended antrotomy. A reliable technique for attachment to the short incus process has yet to be developed.

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“…Sound measurements along this pathway help to determine sound transmission in normal hearing and conductive hearing disorders. The findings from these experimental approaches and the deduced theoretical models contribute to the understanding of hearing and have led to improved hearing rehabilitation with surgical interventions and implantable hearing devices [1]- [4]. Further investigations of the biomechanical hearing process are important for optimization of future hearing rehabilitation methods.…”

Section: Introductionmentioning

confidence: 99%