Global ETD Search

1	Design of an Analog VLSI Cochlea Shiraishi, Hisako January 2003 (has links) The cochlea is an organ which extracts frequency information from the input sound wave. It also produces nerve signals, which are further analysed by the brain and ultimately lead to perception of the sound. An existing model of the cochlea by Fragni`ere is first analysed by simulation. This passive model is found to have the properties that the living cochlea does in terms of the frequency response. An analog VLSI circuit implementation of this cochlear model in CMOS weak inversion is proposed, using log-domain filters in current domain. It is fabricated on a chip and a measurement of a basilar membrane section is performed. The measurement shows a reasonable agreement to the model. However, the circuit is found to have a problem related to transistor mismatch, causing different behaviour in identical circuit blocks. An active cochlear model is proposed to overcome this problem. The model incorporates the effect of the outer hair cells in the living cochlea, which controls the quality factor of the basilar membrane filters. The outer hair cells are incorporated as an extra voltage source in series with the basilar membrane resonator. Its value saturates as the input signal becomes larger, making the behaviour rather closer to that of a passive model. The simulation results show this nonlinear phenomenon, which is also seen in the living cochlea. The contribution of this thesis is summarised as follows: a) the first CMOS weak inversion current domain basilar membrane resonator is designed and fabricated, and b) the first active two-dimensional cochlear model for analog VLSI implementation is developed.
2	Biophysical Interactions of the OHC Motor Protein Prestin: A Study at the Single Molecule Level January 2011 (has links) The exquisite frequency selectivity and amplification characteristics of mammalian hearing intimately depend on the fast electromechanical motion of the outer hair cells in the cochlea. This membrane based process, termed electromotility, is driven by the protein prestin which is uniquely present in the OHC lateral wall. Voltage dependent motility, in OHCs and mammalian cells expressing prestin, is accompanied by intramembranous charge movement which is widely considered a signature of electromotility and prestin function. How prestin converts changes in membrane potential into axial length changes of OHCs is currently not understood at the molecular level. Many electromotility models predict that prestin conformational changes are the underlying mechanism connecting charge movement and motility. Currently, however, only indirect evidence for a prestin conformational change is available. Various experiments have indicated that the oligomeric states of prestin may be an important determinant of function. Numerous reports have provided varying estimates of prestin oligomeric state. However, estimates have been based on measurements performed outside the membrane making, firm biophysical conclusions difficult. Biophysical studies of prestin function have demonstrated its dependence on membrane properties. Alterations of membrane cholesterol affect voltage dependence of charge movement and motility. In addition cholesterol manipulations cause spatial redistribution of prestin and possibly change prestin oligomeric state. However, the underlying cause for prestin sensitivity to cholesterol and its relation to membrane distribution is unknown. We have applied single molecule fluorescence (SMF) imaging, single particle tracking (SPT), and Förster resonance energy transfer (FRET) to investigate prestin interactions at the molecular level. The results of our SMF experiments have suggested that prestin forms mainly tetramers and dimers in the cell membrane. Using SPT to map the trajectories of prestin in the membrane, we have found that prestin undergoes diffusion in and hops between membrane confinements of varying size. In addition, we have found that cholesterol affects the size and confinement strength of the compartments but does not affect the diffusivity within the compartments. Finally, using a combination of electrophysiology and FRET we have demonstrated that prestin undergoes voltage dependent structural changes. In total, our results refine our molecular understanding of prestin function. Biological sciences Outer hair cells Motor proteins Prestin Conformational change Biophysics
3	Design of an Analog VLSI Cochlea Shiraishi, Hisako January 2003 (has links) The cochlea is an organ which extracts frequency information from the input sound wave. It also produces nerve signals, which are further analysed by the brain and ultimately lead to perception of the sound. An existing model of the cochlea by Fragni`ere is first analysed by simulation. This passive model is found to have the properties that the living cochlea does in terms of the frequency response. An analog VLSI circuit implementation of this cochlear model in CMOS weak inversion is proposed, using log-domain filters in current domain. It is fabricated on a chip and a measurement of a basilar membrane section is performed. The measurement shows a reasonable agreement to the model. However, the circuit is found to have a problem related to transistor mismatch, causing different behaviour in identical circuit blocks. An active cochlear model is proposed to overcome this problem. The model incorporates the effect of the outer hair cells in the living cochlea, which controls the quality factor of the basilar membrane filters. The outer hair cells are incorporated as an extra voltage source in series with the basilar membrane resonator. Its value saturates as the input signal becomes larger, making the behaviour rather closer to that of a passive model. The simulation results show this nonlinear phenomenon, which is also seen in the living cochlea. The contribution of this thesis is summarised as follows: a) the first CMOS weak inversion current domain basilar membrane resonator is designed and fabricated, and b) the first active two-dimensional cochlear model for analog VLSI implementation is developed.
4	Mechanotransduction and adaptation in mammalian vestibular and auditory hair cells Stauffer, Eric Alan. January 2008 (has links) Thesis (Ph. D.)--University of Virginia, 2008. / Title from title page. Includes bibliographical references. Also available online through Digital Dissertations.
5	Immobilizing Mutation in an Unconventional Myosin15a Affects not only the Structure of Mechanosensory Stereocilia in the Inner Ear Hair Cells but also their Ionic Conductances Syam, Diana 01 January 2014 (has links) In the inner and outer hair cells (OHCs) of the inner ear, an unconventional myosin 15a localizes at the tips of mechanosensory stereocilia and plays an important role in forming and maintaining their normal structure. A missense mutation makes the motor domain of myosin 15a dysfunctional and is responsible for the congenital deafness DFNB3 in humans and deafness and vestibular defects in Shaker-2 (Sh2) mouse model. All hair cells of homozygous Shaker-2 mice (Myo15sh2/sh2) have abnormally short stereocilia, but, only stereocilia of Myo15sh2/sh2OHCs start to degenerate after the first few days of postnatal development and lose filamentous tip links between stereocilia that are crucial for mechanotransduction. The exact mechanisms of this degeneration are unknown even though they may underlie DFNB3 deafness in humans. We hypothesize that structural abnormalities in Myo15sh2/sh2 OHCs may alter the mechanical forces applied to the mechano-electrical transduction (MET) channels resulting in abnormal ionic homeostasis, which may lead to eventual degeneration of Myo15sh2/sh2 OHCs. Therefore, we investigated the ionic conductances and integrity of mechanotransduction apparatus in Myo15sh2/sh2 OHCs. Surprisingly, we found that myosin 15a-deficiency is associated not only with structural abnormalities of OHC stereocilia but also with alterations of voltage-gated ion conductances. Organ of Corti Outer Hair Cells Myosin15a Shaker-2 Mice Patch-Clamp. Genetic Phenomena Medical Cell Biology Other Medical Sciences
6	Mathematical modelling and electrophysiological monitoring of the regulation of cochlear amplification O'Beirne, Greg A. January 2005 (has links) [Truncated abstract] The cochlea presumably possesses a number of regulatory mechanisms to maintain cochlear sensitivity in the face of disturbances to its function. Evidence for such mechanisms can be found in the time-course of the recovery of CAP thresholds during experimental manipulations, and in observations of slow oscillations in cochlear micromechanics following exposure to low-frequency tones (the “bounce phenomenon”) and other perturbations. To increase our understanding of these oscillatory processes within the cochlea, and OHCs in particular, investigations into cochlear regulation were carried out using a combination of mathematical modelling of the ionic and mechanical interactions likely to exist within the OHCs, and electrophysiological experiments conducted in guinea pigs. The electrophysiological experiments consisted of electrocochleographic recordings and, in some cases, measurement of otoacoustic emissions, during a variety of experimental perturbations, including the application of force to the cochlear wall, exposure to very-low-frequency tones, injection of direct current into scala tympani, and intracochlear perfusions of artificial perilymph containing altered concentrations of potassium, sodium, and sucrose. To obtain a panoramic view of cochlear regulation under these conditions, software was written to enable the interleaved and near-simultaneous measurement of multiple indicators of cochlear function, including the compound action potential (CAP) threshold, amplitude and waveshape at multiple frequencies, the OHC transfer curves derived from low-frequency cochlear microphonic (CM) waveforms, distortion-product otoacoustic emissions (DPOAEs), the spectrum of the round-window neural noise (SNN), and the endocochlear potential (EP). ... The mathematical model we have developed provided a physiologically-plausible and internally-consistent explanation for the time-courses of the cochlear changes observed during a number of different perturbations. We show that much of the oscillatory behaviour within the cochlea is consistent with underlying oscillations in cytosolic calcium concentration. We conclude that a number of the discrepancies between the simulation results and the experimental data can be resolved if the cytosolic calcium functions as two distinct pools: one which controls basolateral permeability and one which controls slow motility. This two-calcium-pool model is discussed. Cochlea -- Electric properties Cochlea -- Physiology Electrocochleography Otoacoustic emissions -- Measurement Cochlea -- Mathematical models Auditory evoked response Outer hair cells
7	K⁺ channels in the inner ear : electrophysiological and molecular studies / Liang, Guihua, January 2005 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.
8	TOXICIDADE DE AGROTÓXICO ORGANOFOSFORADO NO SISTEMA AUDITIVO PERIFÉRICO DE COBAIAS: ESTUDO ANATÔMICO E FUNCIONAL / TOXICITY OF AN ORGANOPHOSPHATE PESTICIDE IN THE PERIPHERAL AUDITORY SYSTEM: ANATOMIC AND FUNCTIONAL STUDY Körbes, Daiane 14 July 2009 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The organophosphate pesticides are widely used in agriculture, and the widespread application of these agents, without the appropriate use of bio-security measures, has contributed to environmental degradation and the increased incidence of occupational poisoning, becoming one of the main public health problems in rural areas. Studies show that the ototoxic agents, in addition to the peripheral vestibular and auditory systems compromise, also impair central auditory pathways. Among the major toxic agents that can lead to hearing loss are the solvents, metals, suffocating and organophosphate pesticides. This study examined the acute ototoxic action of a pesticide on the peripheral auditory system. This is a prospective experimental study. We used male albino guinea pigs, divided into three groups, which was administered distilled water (group 1 - control), pesticide - 0.3 mg/Kg/day (group 2), pesticide - 3 mg/Kg/day (group 3), for seven consecutive days. The pesticide used was Tamaron® (methamidophos). The auditory functional evaluation was performed using the Distortion Product Otoacoustic Emissions (DPOAE) and Auditory Brainstem Response (ABR), both performed before and immediately after the application of the pesticide. The anatomical assessment was performed with scanning electron microscopy. The guinea pigs subjected to pesticide had cochlear morphological changes, with lesions in three turns examined in electron microscopy, which was increased according to the dosage received from the agent. In all animals the DPOAE was present, but it was verified that the signal/noise ratio of the frequencies of 1.500 and 6.000 Hz in DPOAE of groups 2 and 3 showed statistically significant difference when compared to control group, indicating possible cell impairment. There were no statistically significant changes in functional assessment of VIII nerve when evaluated by wave I of ABR. It is concluded that the organophosphorous can be considered as a harmful acute agent of outer hair cells, seen the correlation between the dose applied and the amount of changes observed by electron microscopy, however, the acute exposure to Tamaron® did not cause functional alteration of the peripheral auditory system. / Os agrotóxicos organofosforados são amplamente utilizados na agricultura, e a elevada aplicação desses agentes, sem o emprego das devidas medidas de biossegurança, vem contribuindo para a degradação ambiental e para o aumento da incidência de intoxicação ocupacional, tornando-se um dos principais problemas de saúde pública no meio rural. Pesquisas demonstram que os agentes ototóxicos, além de comprometer os sistemas auditivo e vestibular periféricos, provocam ainda alterações nas vias auditivas centrais. Dentre os principais agentes químicos que podem levar à perda auditiva incluem-se os solventes, os metais, os asfixiantes e os agrotóxicos organofosforados. O objetivo deste estudo foi analisar a ação ototóxica aguda de um agrotóxico do grupo dos organofosforados no sistema auditivo periférico. Trata-se de um estudo experimental prospectivo, realizado em cobaias albinas machos, divididas em três grupos, nos quais se administrou água destilada (grupo 1 - controle), agrotóxico - 0,3mg/Kg/dia (grupo 2), agrotóxico 3 mg/Kg/dia (grupo 3), durante sete dias consecutivos. O agrotóxico utilizado foi Tamaron® (metamidofós). A avaliação auditiva funcional foi realizada utilizando-se Emissões Otoacústicas Produto de Distorção (EOAPD) e Potencial Evocado Auditivo de Tronco Encefálico (PEATE), ambos realizados antes e imediatamente após o período de aplicação do agrotóxico. A avaliação anatômica foi realizada com Microscopia Eletrônica de Varredura. As cobaias submetidas ao agrotóxico apresentaram alterações morfológicas cocleares, com lesões nas três espiras analisadas na microscopia eletrônica, intensificadas de acordo com a dosagem recebida do agente. Na avaliação auditiva funcional, todas as cobaias apresentaram EOAPD presentes, no entanto verificou-se significância estatística nos valores da relação sinal/ruído das frequências de 1.500 e 6.000 Hz das EOAPD das cobaias dos grupos 2 e 3 quando confrontados com os achados dos animais do grupo controle, indicando um possível sofrimento celular. Não foram encontradas alterações estatisticamente significantes na avaliação do VIII par craniano por meio da análise da onda I do PEATE. Concluiu-se que o organofosforado pode ser considerado um agente lesivo agudo das células ciliadas externas visto a correlação entre a dosagem aplicada e a quantidade de alterações observadas à microscopia eletrônica, entretanto a exposição aguda ao Tamaron® não causou alteração funcional do sistema auditivo periférico. Organofosforado Agrotóxico Ototoxicidade Emissões otoacústicas Células ciliadas externas Organophosphate Pesticide Ototoxicity Otoacoustic emissions Auditory brainstem response Outer hair cells CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA
9	Surdités cachées ; atteinte des cellules sensorielles cochléaires ou du nerf auditif ? / Hidden deafness; cochlear sensory cells or vestibulocochlear nerve affection ? Souchal, Marion 26 September 2017 (has links) Les surdités neurosensorielles sont classiquement décrites par une élévation des seuils auditifs généralement corrélée à une dégénérescence des cellules ciliées externes (CCE). Toutefois, des travaux récents sur des modèles animaux ont montré qu’un audiogramme normal pouvait être associé à des atteintes auditives périphériques. Ce travail de thèse a contribué à mieux caractériser chez des modèles murins, ces déficiences supraliminaires cachées liées d’une part, à des altérations des CCE et d’autre part, à la dégénérescence de certaines fibres nerveuses auditives. Dans la première partie de cette thèse, l’évolution des profils auditifs de souris présentant une dégénérescence accélérée des CCE, les souris de souche CD1-RjOrl : SWISS, a été caractérisée. Dans cette étude longitudinale, menée au cours du premier mois postnatal, une progressivité de la déficience auditive a été montrée. Toutefois, une discordance surprenante a été mise en évidence entre des seuils auditifs proches des valeurs normales à haute fréquence combinés à des produits de distorsions acoustiques (PDA) absents. Les courbes d’accord de masquage montrent un décalage des pointes vers les basses fréquences. Ces données indiquent que les CCE de la base ne sont plus fonctionnelles et que la perception des hautes fréquences est perturbée. Les observations en microscopie électronique à balayage ont révélé une conformation anormale de la touffe stéréociliaire des CCE au niveau de la base de la cochlée. Ces données témoignent d’une désorganisation de la tonotopie cochléaire. Dans la deuxième partie de cette thèse, l’effet de l’oxaliplatine sur la fonction auditive et sur la morphologie cochléaire a été décrit chez des souris adultes de souche CBA/J. L’oxaliplatine, un sel de platine utilisé en chimiothérapie, a de nombreux effets secondaires parmi lesquels l’apparition d’une neuropathie périphérique. À la suite d’un traitement avec cette drogue, les souris ne présentent pas d’élévation des seuils auditifs et pas d’altération de la fonction des CCE. Cependant, l’étude histologique révèle une dégénérescence surprenante des fibres auditives du ganglion spiral. Avec des tests électrophysiologiques supplémentaires, une diminution de l’amplitude du potentiel d’action composite a été mise en évidence. Le réflexe du système efférent olivocochléaire médian, évalué par un test de suppression controlatéral, semble également être diminué par le traitement. Les souris traitées avec de l’oxaliplatine constituent donc un modèle animal précieux de surdité cachée, qui demande à être mieux caractérisé. Les résultats de ces études confirment l’insuffisance de l’audiogramme pour détecter des altérations subtiles de la cochlée et montrent la nécessité d’améliorer le diagnostic de ces déficiences supraliminaires. Ainsi, les atteintes cachées des CCE peuvent être détectées par l’absence de PDA associée à des potentiels évoqués auditifs normaux et les neuropathies par des PDA présents associés à des potentiels évoqués auditifs anormaux. La combinaison de ces différents tests fonctionnels et électrophysiologiques permettrait une meilleure prise en charge des patients et une amélioration de leur qualité de vie. / Sensorineural hearing loss are classically described by auditory thresholds elevation usually correlated with outer hair cells (OHC) degeneration. However, recent work on animal models has shown that normal audiogram can be associated with peripheral hearing impairments. This thesis contributed to better characterize, in mouse models, these hidden supraliminal deficiencies related on the one hand, with OHC alterations and on the other, to auditory nerve fibers degeneration. In the first part of this thesis, the auditory profiles evolution of mice exhibiting an OHC accelerated degeneration, the CD1-RjOrl: SWISS strain mice, was characterized. In this longitudinal study, conducted in the first postnatal month, a progressivity of the hearing impairment has been observed. However, a surprising discrepancy was found between high frequency hearing thresholds close to normal values associated with missing distortion product otoacoustic emission (DPOAE). The masking tuning curves dips are shifted toward low frequencies. Those data indicate that basal OHC are no longer functional and the perception of high frequencies is disrupted. Observations in scanning electron microscopy revealed an abnormal conformation of the OHC stereocilia bundles at the cochlea base. These results represent an evidence of a disorganized cochlear tonotopy. In the second part of this thesis, the effect of oxaliplatin on the auditory function and on the cochlear morphology was described in adult CBA/J strain mice. Oxaliplatin, a platinum salt used in chemotherapy, has many side effects including development of peripheral neuropathy. Following one treatment with this drug, mice did not present any hearing threshold elevation or OHC function impairment. However, the histological study reveals a surprising degeneration of the spiral ganglion cells. With additional electrophysiological tests, a decrease in the compound action potential amplitude has been demonstrated. The median olivocochlear efferent system reflex, evaluated by a contralateral suppression test, also seems to be diminished by the treatment. The mice treated with oxaliplatin, therefore constitute a precious animal model of hidden deafness, which needs to be better characterized. The results of these studies confirm the audiogram insufficiency to detect subtle cochlea alterations and reveal the need to improve supraliminal deficiencies diagnosis. Thus, hidden OHC impairments can be detected by the absence of DPOAE associated with normal auditory evoked potentials and neuropathies by the presence of DPOAE associated with abnormal auditory evoked potentials. The combination of these functional and electrophysiological tests would allow better management of patients and an improvement in their quality of life.Keywords: hidden hearing loss, CD1 mice, outer hair cells, masking tuning curves, tonotopy, oxaliplatine, spiral Courbe d’accord de masquage Surdité cachée Souris CD1 Neuropathie Ganglion spiral Oxaliplatine Tonotopie Cellules ciliées externes Neuropathy Hidden hearing loss CD1 mice Outer hair cells Masking tuning curves Tonotopy Oxaliplatine Spiral ganglion 616.8

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