Role Of Middle Ear Inertial Component Of Bone Conduction In Chinchilla

Role of Middle-ear Inertial Component of Bone Conduction in Chinchilla

Author : David Chhan

Publisher :

Page : 55 pages

File Size : 33,12 MB

Release : 2013

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ISBN :

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Bone conduction describes the mechanisms that produce a hearing sensation when the skull bones are subjected to vibration. Multiple components and pathways have been suggested to contribute to total bone-conducted sound. They include outer-ear cartilaginous wall compression, middle-ear inertia, fluid inertia, cochlear capsule compression and soft-tissue conduction. Due to the complexity of the possible interactions within these components and pathways, the true stimulus to the inner ear is not fully understood nor has it been adequately quantified. In this thesis work, we examined the relationship between inner-ear sound pressures and its sensory response in addition to determining the relative significance between the outer, middle and inner ear mechanisms that are prominent in bone conduction hearing in chinchilla. Using both mechanical and physiological recording techniques, we measured cochlear responses in chinchilla before and after interruption of the middle-ear ossicular system in both air conduction (AC) and bone conduction (BC) stimulation. Our data suggest that differential intracochlear sound pressure is the driving source to the sensory response of the inner ear in AC and BC. Compared to those in AC, inner-ear sound pressure measurements in BC provide evidence of multiple mechanisms in BC process. After middle ear interruption, pressures in scala vestibuli Psv and scala tympani PST drop by as much as 40 dB in AC, but only decrease in Psv by 10 dB, with almost no change in PST in BC. The difference in the change of both Psv and PST in BC compared to AC suggest the main mechanisms that drive the inner ear response in BC are not derived from the outer ear or middle ear but the inner ear.



Evidence of Inner-ear Mechanisms in Bone Conduction in Chinchillas

Author : David Chhan

Publisher :

Page : 76 pages

File Size : 13,23 MB

Release : 2015

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While much is known about the process of how airborne sound is conducted to the inner-ear via the outer ear and middle ear, so-called air conduction (AC), the mechanisms by which vibrations of the head and body, so-called bone conduction (BC), produce an auditory response are not well understood. It is clear that the inner ear is the sensory site of auditory stimulation by bone conduction, and that the resultant activation of the inner ear has many features in common with air-conduction stimulation; however, bone conduction is known to stimulate the inner ear through multiple pathways. The relative significance and frequency dependence of these different pathways have not been well defined. Our previous work on bone conduction in chinchillas suggested inner-ear mechanisms are the dominant sources in BC. This thesis builds upon the early work by investigating inner ear mechanisms with stapes fixation and ear canal occlusion. Results of stapes fixation show a decrease in scala vestibuli sound pressure Psv and little change in scala tympani sound pressure PST in bone conduction. Ear canal occlusion produces an increase in ear canal sound pressure PEC with a similar amount of increase in Psv, but almost no change in Pst. We attributed the differences in the change between Psv and PST in bone conduction after these manipulations to the existence of compressible cochlear structures or third window pathways, e.g. the cochlear aqueduct. While ear canal compression and middle ear inertia sources may contribute to the total bone conduction response (a 10 dB decrease in Psv after middle ear interruption and stapes fixation, and a 10 dB increase after ear canal occlusion), inner ear mechanisms are still the most significant sources in bone conduction because the changes in Psv and Pst in BC are much smaller than the changes in AC.



The Middle Ear

Author : Sunil Puria

Publisher : Springer Science & Business Media

Page : 320 pages

File Size : 11,75 MB

Release : 2013-03-19

Category : Medical

ISBN : 1461465915

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Book Description

The middle ear plays a vital role in the sense and sensitivity of hearing. Of the various characteristics that distinguish mammals from other vertebrates, several pertain specifically to the middle-ear system, such as the presence of three middle-ear bones and the four-layer composite structure of the tympanic membrane. The Middle Ear attempts to elucidate the role this system plays in sound transmission, as viewed from both scientific and clinical perspectives.



Implantable Bone Conduction Hearing Aids

Author : M. Kompis

Publisher : Karger Medical and Scientific Publishers

Page : 165 pages

File Size : 10,6 MB

Release : 2011-03-08

Category : Medical

ISBN : 3805597002

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Book Description

Three decades after the introduction of the first bone-anchored hearing aids, the available systems have improved significantly and the field is expanding faster than ever. New technologies such as digital signal processing have opened new avenues unique to bone conduction hearing aids. Better insights into the physiology of bone-conducted hearing have not only changed the field but also provided ideas for new areas of application.In this volume of Advances in Oto-Rhino-Laryngology, renowned researchers and experienced clinicians from all over the world present the latest findings and practices. Reviews on the theoretical background of bone conduction hearing, presentation of currently available hearing aid systems, chapters on monaural and binaural hearing with implantable bone conduction hearing aids, a comparison with conventional hearing aids and a glimpse into the future of implantable bone conduction hearing aids render this volume an invaluable reference book to ENT surgeons, audiologists, hearing aid acousticians and researchers alike.



Hearing Measurement

Author : Ira M. Ventry

Publisher :

Page : 0 pages

File Size : 47,76 MB

Release : 1971

Category : Audiometry

ISBN : 9780390899088

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Hearing

Author : Stanley A. Gelfand

Publisher : CRC Press

Page : 513 pages

File Size : 35,76 MB

Release : 2004-09-28

Category : Medical

ISBN : 0824757270

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Book Description

Brimming with more than more than 1700 references, this reader-friendly and extensively revised Fourth Edition will prove invaluable to instructors and students alike-providing a unified approach to the anatomical, physiological, and perceptual aspects of audition with updated chapters on the latest developments in the field.



Cochlear Mechanics

Author : Frank Böhnke

Publisher : S. Karger AG (Switzerland)

Page : 0 pages

File Size : 37,86 MB

Release : 1999

Category : Cochlea

ISBN : 9783805569880

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Book Description

This special issue collects our current knowledge of the mechanical processing of acoustic signals by the cochlea and its containing structures. Many workers in diverse disciplines in otology use the facts from cochlear mechanics for the interpretation of their results. Presented here for the first time is the development of a three-dimensional mechanical model of the curved cochlea including fluid-structure couplings. An important approach for future cochlear modeling is shown by the provision of geometrical data for the input of three-dimensional finite element models by microtomographic imaging. A remarkable article tries to demonstrate a connection between outer hair cell mechanics and the complex phenomenon of tinnitus and will be of special interest for stress engineers. Owing to its strong interdisciplinarity, this issue is not only intended for biophysicists, ENT clinicians and audiologists but also for radiologists, biomechanical engineers and computer engineers.



Auditory Pathway

Author : Josef Syka

Publisher : Springer Science & Business Media

Page : 345 pages

File Size : 21,78 MB

Release : 2012-12-06

Category : Science

ISBN : 1468413007

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Book Description

Since the last symposium on "Neuronal Mechanisms of Hearing" held in Prague in 1980 and published in the volume of the same name (J. Syka and L. Aitkin, Eds. , Plenum Press, 1981), remarkable progress has been achieved in the understanding of the auditory system. A variety of new ideas and new methods have emerged. This progress can be easily documented by comparing the volume based on the 1980 Symposium with the program for the 1987 Symposium. For example, there were 45 contributions to auditory physiology in each symposium but there were 27 contributions focusing on anatomy in 1987 as compared to 7 in 1980, and perhaps most telling, there were 12 contributions to the neurochemistry of the system in 1987 while there were only 3 in 1980. In terms of percentages of contributions, neuroanatomy rose from 13% to 32% and neurochemistry (or chemical anatomy) rose from 5% in 1980 to 14% in 1987. These increases in the numbers and proportions of anatomical and neurochemical contributions undoubtedly reflects the increasing availabil ity and rising expertise in the new neuroanatomica1 and biochemical techniques most notably, tract-tracing by exploitation of axonal transport or by intracellular micro-injection methods, and neurotransmitter identifi cation by use of immunocytochemistry or receptor-binding techniques. New ideas have emerged on the function of cochlear hair cells particularly in connection with olivococh1ear bundle stimulation and supported by findings of contractile proteins in outer hair cells.



Physiological Acoustics

Author : Juergen Tonndorf

Publisher :

Page : 426 pages

File Size : 28,48 MB

Release : 1981

Category : Medical

ISBN :

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Physics in Biology and Medicine

Author : Paul Davidovits

Publisher : Academic Press

Page : 352 pages

File Size : 10,97 MB

Release : 2008

Category : Medical

ISBN : 0123694116

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Book Description

This third edition covers topics in physics as they apply to the life sciences, specifically medicine, physiology, nursing and other applied health fields. It includes many figures, examples and illustrative problems and appendices which provide convenient access to the most important concepts of mechanics, electricity, and optics.