933 resultados para OTOACOUSTIC EMISSIONS
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Pós-graduação em Bases Gerais da Cirurgia - FMB
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Pós-graduação em Bases Gerais da Cirurgia - FMB
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Há comprovação de que o fenômeno de resistência ocorre quando a dose não lesiva da amicacina protege as células ciliadas contra a ototoxicidade da própria amicacina. OBJETIVO: O objetivo deste trabalho é verificar se o fenômeno de resistência é temporalmente persistente. MÉTODO: Estudo experimental com 14 cobaias albinas (Cavia porcellus) divididas em três grupos. Avaliação da função auditiva por emissões otoacústicas por produto de distorção (EOAPD): na pré-exposição à amicacina, no 15º dia de aplicação da dose não lesiva, no final da aplicação da dose lesiva e antes da decapitação. RESULTADOS: O Grupo A (controle) apresentou função auditiva e padrão histológico normais. No Grupo B (amicacina 20mg/kg/dia intramuscular por 30 dias e dose lesiva (400 mg/kg/dia) por 12 dias) e no Grupo C (mesmo esquema do grupo B, porém mantidos por 60 dias e sacrificados), as OEA-PD confirmaram função auditiva normal no período pré-exposição e manutenção do padrão após dose não lesiva, porém, houve perda importante da função auditiva após término do período de aplicação da dose lesiva. CONCLUSÃO: Não houve manutenção do fenômeno da autodefesa estendida por um período de 30 a 60 dias após a aplicação de doses lesivas de amicacina.
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In the present study, we evaluated peripheral and central auditory pathways in professional musicians (with and without hearing loss) compared to non-musicians. The goal was to verify if music exposure could affect auditory pathways as a whole. This is a prospective study that compared the results obtained between three groups (musicians with and without hearing loss and non-musicians). Thirty-two male individuals participated and they were assessed by: Immittance measurements, pure-tone air conduction thresholds at all frequencies from 0.25 to 20 kHz, Transient Evoked Otoacoustic Emissions, Auditory Brainstem Response (ABR), and Cognitive Potential. The musicians showed worse hearing thresholds in both conventional and high frequency audiometry when compared to the non-musicians; the mean amplitude of Transient Evoked Otoacoustic Emissions was smaller in the musicians group, but the mean latencies of Auditory Brainstem Response and Cognitive Potential were diminished in the musicians when compared to the non-musicians. Our findings suggest that the population of musicians is at risk for developing music-induced hearing loss. However, the electrophysiological evaluation showed that latency waves of ABR and P300 were diminished in musicians, which may suggest that the auditory training to which these musicians are exposed acts as a facilitator of the acoustic signal transmission to the cortex.
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Abstract Objective To evaluate the functionality of the auditory system in patients who underwent radiotherapy and chemotherapy treatment with cisplatin to treat head and neck tumors. Study Design Case series with planned data collection. Setting From May 2007 to May 2008 by the Department of Otorhinolaryngology and the Department of Oncology/Radiotherapy at Faculdade de Medicina de Marília. Subjects and Methods Audiological evaluation (Pure Tone Audiometry (air and bone conduction), Speech Audiometry, Tympanometry, Acoustic Reflex testing and Distortion Product Otoacoustic Emissions) was performed in 17 patients diagnosed with head and neck neoplasia and treated with chemotherapy, using cisplatin, and radiotherapy. Results 12 left ears (70.5%) and 11 right ears (64.7%) presented bilateral decreased hearing soon after the treatment for the frequency 1 kHz (mild auditory damage) and for the frequency 8 kHz (more significant auditory damage). Conclusion Patients with head and neck cancer submitted to the conventional radiotherapy treatment, combined with the chemotherapy with cisplatin, presented a high incidence of decreased hearing by the end of treatment. Strong evidence was observed linking auditory alteration to the amount of radiotherapy treatment.
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PURPOSE: To describe the Brainstem Auditory Evoked Potential (BAEP) results of full-term small-for-gestational-age newborns, comparing them to the results of full-term appropriate-for-gestational-age newborns, in order to verify whether the small-for-gestational-age condition is a risk indicator for retrocochlear hearing impairment. METHODS: This multicentric prospective cross-sectional study assessed 86 full-term newborns - 47 small- (Study Group) and 39 appropriate-for-gestational-age (Control Group - of both genders, with ages between 2 and 12 days. Newborns with presence of transient evoked otoacoustic emissions and type A tympanometry were included in the study. Quantitative analysis was based on the mean and standard deviation of the absolute latencies of waves I, III and V and interpeak intervals I-III, III-V and I-V, for each group. For qualitative analysis, the BAEP results were classified as normal or altered by analyzing these data considering the age range of the newborn at the time of testing. RESULTS: In the Study Group, nine of the 18 (38%) subjects with altered BAEP results had the condition of small-for-gestational-age as the only risk factor for hearing impairments. In the Control Group, seven (18%) had altered results. Female subjects from the Study Group tended to present more central alterations. In the Control Group, the male group tended to have more alterations. CONCLUSION: Full-term children born small or appropriate for gestational age might present transitory or permanent central hearing impairments, regardless of the presence of risk indicators.
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Although non-organic hearing losses are relatively rare, it is important to identify suspicious findings early to be able to administer specific tests, such as objective measurements and specific counseling. In this retrospective study, we searched for findings that were specific ti or typical for non-organic hearing losses. Patient records from a 6 year period (2003-2008) from the University ENT Department of Bern, Switzerland, were reviewed. In this period, 40 subjects were diagnosed with a non-organic hearing loss (22 children, ages 7-16, mean 10.6 years; 18 adults, ages 19-57, mean 39.7 years; 25 females and 15 males). Pure tone audiograms in children and adults showed predominantly sensorineural and frequency-independent hearing losses, mostly in the range of 40-60 dB. In all cases, objective measurements (otoacoustic emissions and/or auditory-evoked potentials) indicated normal or substantially better hearing thresholds than those found in pure tone audiometry. In nine subjects (22.5%; 2 children, 7 adults), hearing aids had been fitted before the first presentation at our center. Six children (27%) had a history of middle ear problems with a transient hearing loss and 11 (50%) knew a person with a hearing loss. Two new and hitherto unreported findings emerged from the analysis: it was observed that a small air-bone gap of 5-20 dB was typical for non-organic hearing losses and that speech audiometry might show considerably poorer results than expected from pure tone audiometry.
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We assessed the effects of hypoxic-ischemic encephalopathy (HIE) and whole-body hypothermia therapy on auditory brain stem evoked responses (ABRs) and distortion product otoacoustic emissions (DPOAEs). We performed serial assessments of ABRs and DPOAEs in newborns with moderate or severe HIE, randomized to hypothermia ( N = 4) or usual care ( N = 5). Participants were five boys and four girls with mean gestational age (standard deviation) of 38.9 (1.8) weeks. During the first week of life, peripheral auditory function, as measured by the DPOAEs, was disrupted in all nine subjects. ABRs were delayed but central transmission was intact, suggesting a peripheral rather than a central neural insult. By 3 weeks of age, peripheral auditory function normalized. Hypothermia temporarily prolonged the ABR, more so for waves generated higher in the brain stem but the effects reversed quickly on rewarming. Neonatal audiometric testing is feasible, noninvasive, and capable of enhancing our understanding of the effects of HIE and hypothermia on auditory function.
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Abstract Conclusions: Specific requests for cochlear implantations by persons with psychogenic hearing loss are a relatively new phenomenon. A number of features seems to be over-represented in this group of patients. The existence of these requests stresses the importance of auditory brainstem response (ABR) measurements before cochlear implantation. Objective: To describe the phenomenon of patients with psychogenic hearing losses specifically requesting cochlear implantation, and to gain first insights into the characteristics of this group. Methods: Analysis of all cases seen between 2004 and 2013 at the University Hospital of Bern, Switzerland. Results: Four cochlear implant candidates with psychogenic hearing loss were identified. All were female, aged 23-51 years. Hearing thresholds ranged from 86 dB to 112 dB HL (pure-tone average 500-4000 Hz). ABRs and otoacoustic emissions (OAEs) showed bilaterally normal hearing in two subjects, and hearing thresholds between 30 and 50 dB in the other two subjects. Three subjects suffered from depression and one from a pathologic fear of cancer. Three had a history of five or more previous surgeries. Three were smokers and three reported other close family members with hearing losses. All four were hearing aid users at the time of presentation.
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OBJECTIVES Creation of an atraumatic, hearing-preservation cochleostomy is integral to the future of minimally invasive inner ear surgery. The goal of this study was to develop and characterize a novel chemical approach to cochleostomy. STUDY DESIGN Prospective animal study. SETTING Laboratory. METHODS Experimental animal study in which phosphoric acid gel (PAG) was used to decalcify the otic capsule in 25 Hartley guinea pigs. Five animals in each of 5 surgical groups were studied: (1) mechanically opening the auditory bulla alone, (2) PAG thinning of the basal turn otic capsule, leaving endosteum covered by a layer of bone, (3) micro-pick manual cochleostomy, (4) PAG chemical cochleostomy, exposing the endosteum, and (5) combined PAG/micro-pick cochleostomy, with initial chemical thinning and subsequent manual removal of the last osseous layer. Preoperative and postoperative auditory brainstem responses and otoacoustic emissions were obtained at 2, 6, 10, and 16 kHz. Hematoxylin and eosin-stained paraffin sections were compared. RESULTS Surgical and histologic findings confirmed that application of PAG provided reproducible local bone removal, and cochlear access was enabled. Statistically significant auditory threshold shifts were observed at 10 kHz (P = .048) and 16 kHz (P = .0013) following cochleostomy using PAG alone (group 4) and at 16 kHz using manual cochleostomy (group 3) (P = .028). No statistically significant, postoperative auditory threshold shifts were observed in the other groups, including PAG thinning with manual completion cochleostomy (group 5). CONCLUSION Hearing preservation cochleostomy can be performed in an animal model using a novel technique of thinning cochlear bone with PAG and manually completing cochleostomy.
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To enhance their mechanical sensitivity and frequency selectivity, hair cells amplify the mechanical stimuli to which they respond. Although cell-body contractions of outer hair cells are thought to mediate the active process in the mammalian cochlea, vertebrates without outer hair cells display highly sensitive, sharply tuned hearing and spontaneous otoacoustic emissions. In these animals the amplifier must reside elsewhere. We report physiological evidence that amplification can stem from active movement of the hair bundle, the hair cell’s mechanosensitive organelle. We performed experiments on hair cells from the sacculus of the bullfrog. Using a two-compartment recording chamber that permits exposure of the hair cell’s apical and basolateral surfaces to different solutions, we examined active hair-bundle motion in circumstances similar to those in vivo. When the apical surface was bathed in artificial endolymph, many hair bundles exhibited spontaneous oscillations of amplitudes as great as 50 nm and frequencies in the range 5 to 40 Hz. We stimulated hair bundles with a flexible glass probe and recorded their mechanical responses with a photometric system. When the stimulus frequency lay within a band enclosing a hair cell’s frequency of spontaneous oscillation, mechanical stimuli as small as ±5 nm entrained the hair-bundle oscillations. For small stimuli, the bundle movement was larger than the stimulus. Because the energy dissipated by viscous drag exceeded the work provided by the stimulus probe, the hair bundles powered their motion and therefore amplified it.
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Vertebrate sensory hair cells achieve high sensitivity and frequency selectivity by adding self-generated mechanical energy to low-level signals. This allows them to detect signals that are smaller than thermal molecular motion and to achieve significant resonance amplitudes and frequency selectivity despite the viscosity of the surrounding fluid. In nonmammals, a great deal of in vitro evidence indicates that the active process responsible for this amplification is intimately associated with the hair cells' transduction channels in the stereovillar bundle. Here, we provide in vivo evidence of hair-cell bundle involvement in active processes. Electrical stimulation of the inner ear of a lizard at frequencies typical for this hearing organ induced low-level otoacoustic emissions that could be modulated by low-frequency sound. The unique modulation pattern permitted the tracing of the active process involved to the stereovillar bundles of the sensory hair cells. This supports the notion that, in nonmammals, the cochlear amplifier in the hair cells is driven by a bundle motor system.
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INTRODUÇÃO: A audição é um dos sentidos mais importantes para o ser humano, e seu funcionamento está interligado à sua produtividade, o que não é diferente aos músicos, já que ela é de suma importância para a qualidade de seu trabalho e permanência na carreira. O desenvolvimento de um programa de prevenção de perdas auditivas tem por objetivo modificar o comportamento dos músicos em relação à sua audição, uma vez que, constantemente, estão expostos a níveis de pressão sonora elevados e ao surgimento de lesões irreversíveis. Contudo, se medidas preventivas não forem realizadas corretamente, as exposições dos músicos frente à intensidade sonora elevada podem trazer prejuízos à saúde e alguns destes, irreversíveis como, a Perda Auditiva Induzida por Níveis de Pressão Sonora Elevados (PAINPSE) ou Perda Auditiva Induzida por Música (PAIM). OBJETIVO GERAL: submeter os músicos ao programa de prevenção de perdas auditivas (PPPA) e verificar sua eficácia. MATERIAL E MÉTODOS: Participaram componentes de quatro bandas musicais, correspondendo a um total de 16 participantes. Esses membros foram submetidos ao Programa de Prevenção de Perdas Auditivas (PPPA) que engloba as seguintes etapas: (1) medição do nível de pressão sonora no ensaio e show; (2) entrevista específica, Audiometria Tonal Liminar e de Altas Frequências, Logoaudiometria, Imitanciometria e Emissões Otoacústicas por estímulo Transientes e Produto de Distorção; (3) orientação sobre a utilização do Equipamento de Proteção Individual (EPI); e (4) a realização de medidas educativas por meio de workshops. RESULTADOS: O Nível de Pressão Sonora (NPS) durante os ensaios e apresentações/shows, encontram-se elevados, sintomas não auditivos estão presentes em 68, 75% da população total da amostra, presença de zumbido após o show em 100% da amostra; maiores dificuldades de compreensão de fala no ruído nos músicos que tocam baixo (75%). Ao traçar o perfil audiológico do músico foram encontrados: maiores médias dos limiares audiológicos por frequência das bandas estudadas em 500Hz e 3KHz (B1), 3KHz e 4KHz (B2), 3KHz, 4KHz e 6KHz (B3) e em 3KHz (B4); as maiores médias dos limiares audiológicos por frequência dos instrumentos estudados foram em 3KHz, 4KHz e 6KHz (voz), 3KHz e 4KHz (guitarra), 3KHz, 4KHz e 6KHz (baixo) e 3KHz, 4KHz (bateria); presença de entalhe nas frequências de 2KHz, 4KHz, 6KHz e 8KHz na audiometria tonal liminar; já na audiometria de altas frequências em todas as frequências apareceram ao menos um caso, reflexos ausentes em 4KHz (ipsilateral e contralateral); ausência de resposta em 4KHz para todos os baixistas bilateralmente (100%) quando pesquisado EOE por estímulo transiente e na produto de distorção foram encontradas ausência de respostas em 50% da amostra na frequência de 6KHz, sendo assim pesquisada a curva de crescimento (dp growth rate) aparecendo resposta em 75dB em quase 100% dos casos em que houve necessidade de sua realização. Quanto aos achados obtidos da avaliação realizada pelos participantes (músicos) referente ao website, os resultados mostraram que o mesmo atende às necessidades propostas, ou seja, a promoção da saúde auditiva em músicos. CONCLUSÃO: Existe a necessidade de serem tomadas medidas preventivas e a inserção dos músicos em um Programa de Prevenção de Perdas Auditivas (PPPA) a fim de proporcioná-los maiores condições de qualidade de vida e em seu trabalho, já que necessitam da sua audição para desempenhar com eficácia suas atividades e se manter no mercado de trabalho atuando como músico.
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Once thought to be predominantly the domain of cortex, multisensory integration has now been found at numerous sub-cortical locations in the auditory pathway. Prominent ascending and descending connection within the pathway suggest that the system may utilize non-auditory activity to help filter incoming sounds as they first enter the ear. Active mechanisms in the periphery, particularly the outer hair cells (OHCs) of the cochlea and middle ear muscles (MEMs), are capable of modulating the sensitivity of other peripheral mechanisms involved in the transduction of sound into the system. Through indirect mechanical coupling of the OHCs and MEMs to the eardrum, motion of these mechanisms can be recorded as acoustic signals in the ear canal. Here, we utilize this recording technique to describe three different experiments that demonstrate novel multisensory interactions occurring at the level of the eardrum. 1) In the first experiment, measurements in humans and monkeys performing a saccadic eye movement task to visual targets indicate that the eardrum oscillates in conjunction with eye movements. The amplitude and phase of the eardrum movement, which we dub the Oscillatory Saccadic Eardrum Associated Response or OSEAR, depended on the direction and horizontal amplitude of the saccade and occurred in the absence of any externally delivered sounds. 2) For the second experiment, we use an audiovisual cueing task to demonstrate a dynamic change to pressure levels in the ear when a sound is expected versus when one is not. Specifically, we observe a drop in frequency power and variability from 0.1 to 4kHz around the time when the sound is expected to occur in contract to a slight increase in power at both lower and higher frequencies. 3) For the third experiment, we show that seeing a speaker say a syllable that is incongruent with the accompanying audio can alter the response patterns of the auditory periphery, particularly during the most relevant moments in the speech stream. These visually influenced changes may contribute to the altered percept of the speech sound. Collectively, we presume that these findings represent the combined effect of OHCs and MEMs acting in tandem in response to various non-auditory signals in order to manipulate the receptive properties of the auditory system. These influences may have a profound, and previously unrecognized, impact on how the auditory system processes sounds from initial sensory transduction all the way to perception and behavior. Moreover, we demonstrate that the entire auditory system is, fundamentally, a multisensory system.
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ANTECEDENTES: Conocer el funcionamiento del sistema auditivo es de interés para los profesionales, por esto la detección temprana de hipoacusia es importante. OBJETIVO GENERAL: Determinar la incidencia de hipoacusia y su relación con factores de riesgo, en pacientes del Servicio de Neonatología, Hospital Latinoamericano, Cuenca - Ecuador, 2015. METODOLOGÍA: Es un estudio prospectivo analítico, la muestra de 50 pacientes cumplieron los criterios de inclusión y exclusión, los factores de riesgo se recolectaron en un formulario elaborado por los autores. Para la formulación y análisis de tablas estadísticas se utilizó Microsoft Office Excel 2007 y SPSS. Medidas Estadísticas: Riesgo Relativo, Índice de Confianza, y valor de P. RESULTADOS: La incidencia de hipoacusia detectada por OEA fue de 20 (40%) de 50 pacientes. El grupo etario con mayor incidencia de hipoacusia fueron pacientes entre 1 y 5 días de nacidos. Los factores de riesgo más frecuentes fueron PREMATURIDAD y APGAR al minuto deprimido, ambos con 28 casos (56%). El sexo MASCULINO con un 60% del total de hipoacusias detectadas fue el de mayor incidencia. Los factores de riesgo estadísticamente significativos, fueron MANIFESTACIONES NEUROLÓGICAS, con un RR=3.31 (IC95%: 2.10 – 5.21) y valor p = 0.001 y MALFORMACIONES CONGENITAS con un RR=2.88 (IC95%: 1.94 – 4.27) y valor p=0.021. CONCLUSIONES: Determinar la incidencia de hipoacusia mediante OEA es importante para llegar a un diagnóstico definitivo mediante la prueba de Potenciales Evocados y lograr un tratamiento temprano y adecuado, además de un control epidemiológico propio para detectar factores de riesgo asociados
