Готові списки джерел за темами / Hearing function

Добірка наукової літератури з теми "Hearing function"

Автор: Grafiati
Опубліковано: 1 квітня 2023

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Статті в журналах з теми "Hearing function"

1

Thornton, A. R. D. "Electrophysiological measures of hearing function in hearing disorders." British Medical Bulletin 43, no. 4 (1987): 926–37. http://dx.doi.org/10.1093/oxfordjournals.bmb.a072226.

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2

Xu, Chunsheng, Dongfeng Zhang, Xiaocao Tian, Haiping Duan, Yili Wu, Zengchang Pang, Shuxia Li, and Qihua Tan. "Genetic and Environmental Influences on Correlations Between Hearing and Cognitive Functions in Middle and Older Chinese Twins." Twin Research and Human Genetics 20, no. 5 (August 14, 2017): 374–79. http://dx.doi.org/10.1017/thg.2017.42.

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The genetic and environmental impacts on correlations between hearing and cognitive functions have not been well studied. Cognitive function was evaluated by the Montreal Cognitive Assessment (MoCA). Hearing function was assessed by audiometric pure-tone hearing thresholds at different frequencies, including 0.5 kHz, 1 kHz, 2 kHz, 4 kHz, 8 kHz, and 12.5 kHz, with the lower hearing thresholds indicating better hearing function. Cognitive and hearing functions were measured on 379 complete twin pairs (240 monozygotic and 139 dizygotic pairs) with a median age of 50 years (range: 40–80 years). Bivariate twin models were fitted to quantify the genetic and environmental components of the correlations between hearing and cognitive functions. The analysis showed significantly high genetic correlation between 2 kHz of hearing and cognition (rG = −1.00, 95% CI [−1.00, −0.46]) and moderate genetic correlation between 4 kHz of hearing and cognition (rG = −0.62, 95% CI [−1.00, −0.14]). We found no significant genetic correlations between low as well as high frequencies of hearing and cognition. Low to moderate common and unique environmental correlations were shown between low frequencies of hearing and cognition (−0.13 to −0.39) and the common environmental correlation between 8 kHz, one of the high frequencies of hearing, and cognition (−0.22). The middle frequencies of hearing and cognitive functions may have a shared genetic basis. Low frequencies of hearing and cognition may share similar common and unique environmental factors. At 8 kHz, the high frequency of hearing and cognition may share similar common environment. This twin study detected a significant genetic and environmental basis in the phenotype correlation between cognition and hearing, which differed across frequencies.
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3

Dillon, Harvey. "Hearing Aid Evaluation." Journal of Speech, Language, and Hearing Research 36, no. 3 (June 1993): 621–33. http://dx.doi.org/10.1044/jshr.3603.621.

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In this study, hearing aid gain for speech was defined as the difference in level between the aided and unaided performance-intensity functions measured at any specific value of percentage of items correct. The articulation index method was used to predict speech gain based on the subject’s unaided sound field thresholds, ambient room noise, hearing aid internal noise, hearing aid insertion gain, and the subject’s unaided performance-intensity function. Predicted speech gain agreed with measured speech gain with rms errors of only 3 dB for 11 subjects with mild or moderate hearing loss tested with monosyllabic words and continuous discourse. The speech gain provided by a hearing aid can thus be predicted from electroacoustic measures, which generally can be obtained in a shorter time. Importance functions believed to be applicable to nonsense syllables, words, and continuous discourse were used to make the predictions, but prediction accuracy was not affected by the importance function chosen. Speech gain measured with the monosyllabic word test was highly correlated with speech gain measured with the continuous discourse test, provided that similar presentation levels were used.
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4

Nanda, Manpreet S., Mandeep Kaur, and Shenny Bhatia. "Impact of Septoplasty on hearing and middle ear function." International Journal of Research in Medical Sciences 6, no. 1 (December 23, 2017): 135. http://dx.doi.org/10.18203/2320-6012.ijrms20175556.

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Background: Deviated nasal septum affects hearing and middle ear ventilation by altering eustachain tube function. It leads to ear fullness, affects middle ear ventilation and impacts hearing. Septoplasty is commonly done for deviated septum. So, this study aims to find out if Septoplasty can lead to improvement of hearing and middle ear function and reduce patients ear complaints.Methods: Patients with Deviated nasal septum requiring septoplasty surgery were assessed for ear symptoms, hearing and middle ear pressure by detailed history taking, pure tone audiometry and tympanometry. They then underwent septoplasty and were again assessed post operatively after 2days, 4weeks, 8weeks and 12weeks of surgery. The pre-and post-operative results were compared and analysed.Results: The most common symptom in patients at pre-operative visit was ear fullness and hearing loss was of conductive type. Post operatively there was worsening of symptoms, hearing and middle ear functions after 2days but marked improvement was seen in symptom of ear fullness, conductive hearing and normalisation of middle ear pressure at 8-12weeks after surgery.Conclusions: Septoplasty improves hearing and middle ear function in patients with deviated nasal septum and the improvement is seen 8 to 12weeks after surgery.
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5

Vuckovic, Dragana, Sally Dawson, Deborah I. Scheffer, Taina Rantanen, Anna Morgan, Mariateresa Di Stazio, Diego Vozzi, et al. "Genome-wide association analysis on normal hearing function identifiesPCDH20andSLC28A3as candidates for hearing function and loss." Human Molecular Genetics 24, no. 19 (July 17, 2015): 5655–64. http://dx.doi.org/10.1093/hmg/ddv279.

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6

Vincze, Janos, and Gabriella Vincze-Tiszay. "The Biophysical Function of the Human Eardrum." International Journal of Information Technology and Applied Sciences (IJITAS) 3, no. 2 (May 26, 2021): 103–7. http://dx.doi.org/10.52502/ijitas.v3i2.42.

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The hearing analyzer consists of two main systems: the peripheral hearing system, formed of the outer ear, the middle ear and the inner ear and the central hearing system, which contains the nervous pathways which ensure the transmission of the nervous influx and the hearing area where the information is analyzed and the hearing sensation is generated. The peripheral hearing system achieves the functions of transmission of the sound vibration, the analysis of the acoustic signal and the transformation of the acoustic signal in nervous inflow and the generation of the nervous response. The human hearing is characteristics: 1. The eardrum vibrates from the sound waves; 2. Auditory ossicles amplify the stimulus; 3. In an oval window, the vibration is transmitted to the fluid space of the inner ear; 4. It vibrates the basilar membrane; 5. What is pressed against the membrane tectoria; 6. The stereocilliums of the hair cell bend, ion channels open; 7. Hair cell depolarizes; 8. Stimulus is dissipated in cerebrospinal fluid VIII (vestibulo¬cochlearis); 9. Temporal lobe primary auditory cortex (Brodman 41, 42); 10. Association pathways: speech comprehension (Wernicke area).
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7

Neagu, Alexandra-Cristina, and Monica Gheorghiu. "Thyroid function in hearing impaired children with cochlear implant." Romanian Medical Journal 62, no. 3 (September 30, 2015): 276–79. http://dx.doi.org/10.37897/rmj.2015.3.12.

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Congenital hypothyroidism may be associated with hearing loss. However, the prevalence of thyroid abnormalities in children with severe hearing loss is not clearly evaluated. The authors assessed the thyroid function in 30 children with profound sensorineural bilateral hearing loss, with cochlear implant, to determine if there is any association between congenital hearing loss and hypothyroidism. Serum levels of TSH and free thyroxine were normal in the study group. None had Pendred syndrome. We present a literature review on the association between hearing loss and thyroid abnormalities and the importance of testing hearing in children with congenital hypothyroidism.
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8

Nnomzo’o, Alice, Pavel V. Pavlov, Ekaterina S. Garbaruk, Oksana C. Gorkina, and Olga S. Olina. "The auditory function of infants with congenital heart diseases." Pediatrician (St. Petersburg) 8, no. 3 (May 15, 2017): 81–87. http://dx.doi.org/10.17816/ped8381-87.

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Congenital heart disease (CHD) is 1/3 of all congenital malformations and one of the main causes of infant mortality. Hearing loss may be part of syndromes associated with CHD, or the hearing pathology can be a consequence of the various stages of rehabilitation of underlying pathology. Currently, there isn’t any data on the systematic study of hearing impairment in children with congenital cardiac pathologies. Three hundred and six patients aged 2 days to 8.5 months were examined: 96 patients were included in the main group with CHD, and 300 children without CHD made up a comparison group. All children underwent newborn hearing screening. Infants with suspected hearing pathology were tested with a comprehensive audiological examination. In the CHD group hearing impairment was detected in 29% of children, including sensorineural hearing loss (SNHL) in 12%. And in the comparison group, 3.6% of infants had a hearing loss, SNHL was defined in 1%. Analysis of the data revealed the most significant risk factors for hearing impairments in children with CHD and it had showed the difference in the structure of the risk factors between the both groups. In the study group was registered a case of auditory neuropathy spectrum disorders. This case illustrated the importance of conducting hearing screening by means of click-evoked auditory brainstem responses and not only of registration of otoacoustic emissions. One child with CHD was found to have delayed SNHL, which requires long-term monitoring of hearing in children with cardiopathology.
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9

Bakır, S., N. Penbegül, R. Gün, E. Yorgancilar, V. Kiniş, M. Özbay, M. Atar, and M. Güneş. "Relationship between hearing loss and sexual dysfunction." Journal of Laryngology & Otology 127, no. 2 (December 20, 2012): 142–47. http://dx.doi.org/10.1017/s0022215112002952.

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AbstractObjective:Deafness may be one of the factors that leads to a change in sexual function. This study aimed to assess sexual function, in particular erectile dysfunction, in male patients with hearing loss.Materials and methods:We studied two groups: (1) adult men with acquired, bilateral, sensorineural hearing loss, and (2) healthy, adult, married men demonstrated to have normal hearing levels, as the control group. Sexual function was assessed using the International Index of Erectile Functions questionnaire, and quality of life using the 36-Item Short-Form Health Survey.Results:There was a statistically significant difference between the groups regarding the International Index of Erectile Functions questionnaire results (p <0.001), both for each of the five questionnaire domain scores and for the total score.Conclusion:Our results indicate that men with mild or moderate sensorineural hearing loss have poorer sexual health.
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10

Bhagat, Shaum P. "Modeling DPOAE Input/Output Function Compression: Comparisons with Hearing Thresholds." Journal of the American Academy of Audiology 25, no. 08 (September 2014): 746–59. http://dx.doi.org/10.3766/jaaa.25.8.5.

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Background: Basilar membrane input/output (I/O) functions in mammalian animal models are characterized by linear and compressed segments when measured near the location corresponding to the characteristic frequency. A method of studying basilar membrane compression indirectly in humans involves measuring distortion-product otoacoustic emission (DPOAE) I/O functions. Previous research has linked compression estimates from behavioral growth-of-masking functions to hearing thresholds. Purpose: The aim of this study was to compare compression estimates from DPOAE I/O functions and hearing thresholds at 1 and 2 kHz. Research Design: A prospective correlational research design was performed. The relationship between DPOAE I/O function compression estimates and hearing thresholds was evaluated with Pearson product-moment correlations. Study Sample: Normal-hearing adults (n = 16) aged 22–42 yr were recruited. Data Collection and Analysis: DPOAE I/O functions (L 2 = 45–70 dB SPL) and two-interval forced-choice hearing thresholds were measured in normal-hearing adults. A three-segment linear regression model applied to DPOAE I/O functions supplied estimates of compression thresholds, defined as breakpoints between linear and compressed segments and the slopes of the compressed segments. Pearson product-moment correlations between DPOAE compression estimates and hearing thresholds were evaluated. Results: A high correlation between DPOAE compression thresholds and hearing thresholds was observed at 2 kHz, but not at 1 kHz. Compression slopes also correlated highly with hearing thresholds only at 2 kHz. Conclusions: The derivation of cochlear compression estimates from DPOAE I/O functions provides a means to characterize basilar membrane mechanics in humans and elucidates the role of compression in tone detection in the 1–2 kHz frequency range.
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Дисертації з теми "Hearing function"

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Amanda, Tannor Ophelia. "Hearing aid combined with virtual reality function." Thesis, Boston, USA, 2020. http://openarchive.nure.ua/handle/document/11840.

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In this paper the structure scheme of a smart hearing aid with augmented reality was proposed. This scheme consists of 6 blocks: sensor (microphone), ADC, microprocessor or microcontroller, battery, Bluetooth module, speaker. Such a device should not only improve hearing but also increase the psychological confidence of a person. The next stage of work is the development of an electrical circuit diagram of the device and the assembly of the prototype
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2

Jaiganesh, Avinash. "Cadherin-23 Structure, Function, and Nanomechanics in Hearing and Deafness." The Ohio State University, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=osu1524185957175317.

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3

Geldenhuys, Tiaan Andries. "Temporal gap detection in electric hearing : modelling and experiments." Diss., University of Pretoria, 2008. http://hdl.handle.net/2263/31555.

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To advance the understanding of electric hearing, from both a theoretical and practical perspective, the present study employs an engineering approach to examine whether a fundamental stochastic link exists between neural stimulation and perception. Through the use of custom-developed psychophysics software, temporal gap-detection experiments were carried out and compared with simulation results of a theoretical model. The results are informative, and the suggested modeling principles may be a step forward to a clearer understanding of how the hearing system perceives temporal stimuli. To enable the implementation of psycho-electric experiments involving cochlear implants, a software framework was developed for Matlab version 6.5, called the Psychoacoustics Toolbox, which can present stimuli either acoustically or (for interfacing with cochlear implants) using Cochlear Ltd. hardware. This toolbox facilitates easy setup of experiments based on extensible markup language (XML) templates, and allows for both adaptivestaircase procedures and presentation of a fixed set of stimuli to a participant. Multi-track interleaving of stimuli is also supported, as put forward by Jesteadt (1980), to allow for capturing of subjective responses (such as loudness perception). As part of this research, experiments were performed with three subjects, with a total of four cochlear implants. For the temporal gap-detection experiments, the rate of electrical stimulation varied over a range from 100 to 2700 pulses per second; both periodic stimulus sequences and stimuli reflecting a dead-time-modified Poisson process were used. Also, three spatially distinct stimulation sites were used with each implant to allow comparison among basal, central and apical cochlear responses. A biologically plausible psychophysical model (in contrast with a phenomenological one) was developed for predicting temporal gap-detection thresholds in electric hearing. The model was applied to both periodic and Poisson stimuli, but can easily be used with other kinds of stimuli. For comparison with experimental results, model predictions were made over the same range of stimulus rates. As a starting point, the model takes the neural stimuli, runs them through a neural filter, and then draws statistical interspike-interval (ISI) distribution data from the generated spikes. From the ISI statistics, psychometric curves can be calculated using the principles of Green and Swets (1966), from which predictions can be made for threshold measurements based on the percentage-correct mark for the specific experimental setup. With a model in place, simulations were executed to compare the model results with experimental measurements. In addition to the simulations, mathematical equations for the periodic types of stimuli were derived, given that numerical calculations could be made with higher computational e ciency for this kind of stimulus. These equations allowed for an investigation into the implications of varying the values of different neuron-model parameters. Clear similarities were found between the shapes of gap-threshold curves for experimental and modeled data, and qualitative links have been identified between model parameters and features recognized in threshold curves. For periodic stimuli, quantitative predictions of gap thresholds are close to experimental ones, although measured values cover a larger range. The results of experimental measurements using Poisson stimuli are generally somewhat larger than model predictions, although the shapes of the curves show resemblance. A possible explanation is that participants may find decision tasks involving Poisson stimuli, as opposed to periodic stimuli, confusing. Overall, model predictions and experimental results show close correspondence, suggesting Department of Electrical, Electronic and Computer Engineering. University of Pretoria. ii that the principles underlying the model are fundamentally correct. Copyright 2007, University of Pretoria. All rights reserved. The copyright in this work vests in the University of Pretoria. No part of this work may be reproduced or transmitted in any form or by any means, without the prior written permission of the University of Pretoria. Please cite as follows: Geldenhuys, TA 2007, Temporal gap detection in electric hearing : modelling and experiments, MEng dissertation, University of Pretoria, Pretoria, viewed yymmdd < http://upetd.up.ac.za/thesis/available/etd-02232012-131459 / > E1091/gm
Dissertation (MEng)--University of Pretoria, 2012.
Electrical, Electronic and Computer Engineering
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4

Rhodes, Charlotte R. "Characterisation of new ENU induced mouse models of genetic deafness and vestibular function." Thesis, University of Nottingham, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.250534.

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5

Vidarsson, Hilmar. "Foxi 1, an important gene for hearing, kidney function and male fertility /." Göteborg : Institute of Biomedicine, Dept. of Medical Genetics, Sahlgrenska Academy, Göteborg University, 2007. http://hdl.handle.net/2077/4727.

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6

Low, Robert Donald George. "Simultaneous recording of middle and inner ear function in normal hearing adults." Thesis, University of Sussex, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.394999.

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7

Gilbert, Benjamin Lawrence. "ACF7 DEFICIENCY DOES NOT IMPAIR AUDITORY HAIR CELL DEVELOPMENT OR HEARING FUNCTION." Case Western Reserve University School of Graduate Studies / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=case1619801135718899.

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8

Hand, Erin Marlene Flowers. "Speech Understanding in Noise as a Function of Microphone Placement in Hearing Aids." PDXScholar, 1996. https://pdxscholar.library.pdx.edu/open_access_etds/5190.

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Hearing aid users often complain of poor speech understanding in the presence of background noise. There have been many attempts to overcome this problem by hearing aid manufactures and dispensers. The purpose of the present study was to determine if differences existed between three different styles of hearing aids (i.e. in the ear (ITE), in the canal (ITC), and completely in the canal (CIC)) in the presence of a multi-talker babble. Five sensori-neural hearing impaired subjects were selected from the Portland State University audiology clinic. The subjects were required to listen to a recording of the California Consonant Test (CCT) against a background noise of multi-talker babble. Stimuli were presented through headphones in the sound booth. The stimuli were recorded through three different hearing aids placed on KEMAR's left ear and adjusted to a 10 dB signal-to-noise ratio. Once the speech samples were recorded and digitized, they were routed through a GSl-16 audiometer to the listener. In order to determine performance differences across the three hearing aid configurations from within a single-subject design, each subject's performance was compared in a pairwise fashion between the hearing aid configurations. An analysis of the data was completed using the Randomization test. Using this statistical model, no significant difference was found between the individual scores. Further research is warranted to determine if a better measure exists that qualitatively defines the effect of microphone placement on speech understanding ability in hearing aid users.
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9

Murnane, Owen D. "Otolith Function Tests." Digital Commons @ East Tennessee State University, 2007. https://dc.etsu.edu/etsu-works/1941.

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Hill, Jennifer Clare. "The relationship between auditory efferent function and frequency selectivity in man." Thesis, University College London (University of London), 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.313735.

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Книги з теми "Hearing function"

1

H, Bess Fred, Hall James W. 1948-, Bill Wilkerson Hearing and Speech Center., Vanderbilt University. Division of Hearing and Speech Sciences., and International Symposium on Screening Children for Auditory Function (1991 : Nashville, Tenn.), eds. Screening children for auditory function. Nashville, Tenn: Bill Wilkerson Center Press, 1992.

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2

M, Edelman Gerald, Gall W. Einar, Cowan W. Maxwell, and Neurosciences Institute (New York, N.Y.), eds. Auditory function: Neurobiological bases of hearing. New York: Wiley, 1988.

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3

1929-, Edelman Gerald M., Gall W. Einar 1942-, and Cowan W. Maxwell 1931-, eds. Auditory function: Neurological bases of hearing. New York: Wiley, 1988.

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4

NATO Advanced Research Workshop on Mechanics of Hearing (1988 University of Keele). Cochlear mechanisms: Structure, function, and models. New York: Plenum Press, 1989.

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5

Dizziness, hearing loss, and tinnitus. Philadelphia: F.A. Davis Co., 1998.

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6

International Symposium on Hearing (12th 2000 Mierlo, Netherlands). Physiological and psychophysical bases of auditory function: Proceedings of the 12th International Symposium on Hearing, Carlton de Brug Resort, Mierlo, The Netherlands 4-9th August 2000. Edited by Breebaart D. J. Maastricht, Netherlands: Shaker, 2001.

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7

Harrison, Robert V. The physiology of auditory function in animal models of hearing loss. Birmingham: University of Birmingham, 1991.

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8

International Symposium on Hearing (12th 2000 Mierlo, Netherlands). Physiological and psychophysical bases of auditory function: Proceedings of the 12th International Symposium on Hearing [held at] Carlton de Brug Resort, Mierlo, The Netherlands 4-9th August 2000. Edited by Breebaart D. J. Maastricht: Shaker Publishing, 2001.

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9

California. Legislature. Assembly. Committee on Judiciary. Joint interim hearing on the attorney discipline function of the State Bar of California: Hearing of September 30, 1985, Town and Country Hotel, Windsor Room, San Diego, California. [Sacramento, Ca.?]: California State Assembly, 1985.

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10

Noble, William. Self-assessment of hearing and related functions. London: Whurr, 1998.

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Частини книг з теми "Hearing function"

1

Mastrogiacomo, I., G. Bonanni, V. Colletti, L. Rossi, and P. Zucchetta. "Hearing and Endocrine Function." In Basic and Applied Aspects of Noise-Induced Hearing Loss, 551–58. Boston, MA: Springer US, 1986. http://dx.doi.org/10.1007/978-1-4684-5176-4_42.

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2

Kössl, Manfred, and Marianne Vater. "Cochlear Structure and Function in Bats." In Hearing by Bats, 191–234. New York, NY: Springer New York, 1995. http://dx.doi.org/10.1007/978-1-4612-2556-0_5.

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3

Nodal, Fernando R., and Andrew J. King. "Hearing and Auditory Function in Ferrets." In Biology and Diseases of the Ferret, 685–710. Ames, USA: John Wiley & Sons, Inc., 2014. http://dx.doi.org/10.1002/9781118782699.ch29.

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4

Fay, Richard R. "Structure and Function in Sound Discrimination Among Vertebrates." In The Evolutionary Biology of Hearing, 229–63. New York, NY: Springer New York, 1992. http://dx.doi.org/10.1007/978-1-4612-2784-7_18.

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5

Manley, Geoffrey A., and Otto Gleich. "Evolution and Specialization of Function in the Avian Auditory Periphery." In The Evolutionary Biology of Hearing, 561–80. New York, NY: Springer New York, 1992. http://dx.doi.org/10.1007/978-1-4612-2784-7_34.

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6

di Berardino, Federica, Diego Zanetti, and Barbara Weinstein. "Screening Tools for Otological Function in Older Adults." In Advances in Audiology and Hearing Science, 161–76. Includes bibliographical references and indexes. | Contents: Volume 2. Otoprotection, regeneration, and telemedicine.: Apple Academic Press, 2020. http://dx.doi.org/10.1201/9780429292620-8.

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Crawford, John D. "Comparative Analysis of Electrosensory and Auditory Function in a Mormyrid Fish." In The Evolutionary Biology of Hearing, 457. New York, NY: Springer New York, 1992. http://dx.doi.org/10.1007/978-1-4612-2784-7_28.

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8

Cheng, Sanyin. "The Mediating Function of Intellectual Styles." In Hearing-Impaired Students’ Intellectual Styles and Their Influence, 125–31. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-8810-3_7.

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9

Fried, Robert, and Richard M. Carlton. "Chronic Hyperglycemia Impairs Vision, Hearing, and Sensory Function." In Type 2 Diabetes, 121–48. Boca Raton : CRC Press, 2018.: CRC Press, 2018. http://dx.doi.org/10.1201/9780429507250-5.

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Eargle, John M. "Hearing Threshold Shift as a Function of Age." In Electroacoustical Reference Data, 320–21. Boston, MA: Springer US, 1994. http://dx.doi.org/10.1007/978-1-4615-2027-6_155.

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Тези доповідей конференцій з теми "Hearing function"

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Alexander, Kenneth R., Lucinda P. Hutman, and Gerald A. Fishman. "Assessment of Foveal Function in Retinitis Pigmentosa." In Noninvasive Assessment of Visual Function. Washington, D.C.: Optica Publishing Group, 1985. http://dx.doi.org/10.1364/navf.1985.tua3.

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Retinitis pigmentosa (RP) is a group of genetic retinal dystrophies characterized by nightblindness, visual field depression, intraretinal bone-spicule-like pigmentation, narrowing of the retinal vessels, and a reduction in the amplitude of the electroretinogram. Usher's syndrome is a variant of RP in which there is also a congenital neurosensory hearing defect. Although the loss of visual function in RP typically is more severe in the retinal periphery, there is ultimately a reduction in foveal function in a substantial number of RP patients.
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SISTO, RENATA, ARTURO MOLETI, and FILIPPO SANJUST. "COCHLEAR REFLECTIVITY AND TEOAE TRANSFER FUNCTION." In Proceedings of the 10th International Workshop on the Mechanics of Hearing. WORLD SCIENTIFIC, 2009. http://dx.doi.org/10.1142/9789812833785_0012.

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Mekata, Tsuyoshi, Yoshiyuki Yoshizwrti, Yumiko Koto, Etji Noguchi, and Yoshinori Yamada. "Development of a portable multi-function digital hearing aid." In 3rd International Conference on Spoken Language Processing (ICSLP 1994). ISCA: ISCA, 1994. http://dx.doi.org/10.21437/icslp.1994-532.

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LePage, Eric, and Paul Avan. "Direct testing of the biasing effect of manipulations of endolymphatic pressure on cochlear mechanical function." In MECHANICS OF HEARING: PROTEIN TO PERCEPTION: Proceedings of the 12th International Workshop on the Mechanics of Hearing. AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4939385.

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Karavitaki, K. Domenica, Artur A. Indzhykulian, Duan-Sun Zhang, and David P. Corey. "In search of the cochlear amplifier: New mechanical and molecular tools to probe transduction channel function." In MECHANICS OF HEARING: PROTEIN TO PERCEPTION: Proceedings of the 12th International Workshop on the Mechanics of Hearing. AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4939319.

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"Analysis of the Function of Music Hearing in Piano Playing." In 2017 International Conference on Humanities, Arts and Language. Francis Academic Press, 2018. http://dx.doi.org/10.25236/humal.2017.45.

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Kotani, Hiroko, Masako Sugai, Kasumi Kuramoto, Maka Matsuno, Misa Kato, and Hidenori Nakagawa. "Fundamental analysis of relationships between hearing and cognition in maternal brain function." In 2017 IEEE Life Sciences Conference (LSC). IEEE, 2017. http://dx.doi.org/10.1109/lsc.2017.8268133.

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Ivan, Corina. "Influence Of Movement Games On Respiratory Function In Students With Hearing Impairments." In ICPESK 2018 - International Congress of Physical Education, Sports and Kinetotherapy. Education and Sports Science in the 21st Century, Edition dedicated to the 95th anniversary of UNEFS. Cognitive-Crcs, 2019. http://dx.doi.org/10.15405/epsbs.2019.02.3.

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MURAKAMI, Y., and M. UNOKI. "NONLINEAR RESPONSES OF A NONLINEAR COCHLEAR MODEL WITH THE FUNCTION OF AN OUTER HAIR CELL MODEL." In Proceedings of the 10th International Workshop on the Mechanics of Hearing. WORLD SCIENTIFIC, 2009. http://dx.doi.org/10.1142/9789812833785_0054.

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Mountain, David C., Christopher A. Shera, and Elizabeth S. Olson. "Medial Cochlear Efferent Function: A Theoretical Analysis." In WHAT FIRE IS IN MINE EARS: PROGRESS IN AUDITORY BIOMECHANICS: Proceedings of the 11th International Mechanics of Hearing Workshop. AIP, 2011. http://dx.doi.org/10.1063/1.3658092.

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Звіти організацій з теми "Hearing function"

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Hand, Erin. Speech Understanding in Noise as a Function of Microphone Placement in Hearing Aids. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.7066.

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Ketten, Darlene R., and Soraya M. Bartol. Functional Measures of Sea Turtle Hearing. Fort Belvoir, VA: Defense Technical Information Center, September 2005. http://dx.doi.org/10.21236/ada446809.

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Djawotho, Pibero. Measurement of the neutron (3He) spin structure functions at low Q2: A connection between the Bjorken and gerasimov-drell-hearn sum rule. Office of Scientific and Technical Information (OSTI), December 2002. http://dx.doi.org/10.2172/1054275.

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Voice-hearing can be positive for some young people. ACAMH, December 2020. http://dx.doi.org/10.13056/acamh.14226.

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Researchers in Manchester have described the diverse forms and functions of voices heard by young people. Sarah Parry and Filippo Varese collected demographic, contextual and qualitative data from 68 adolescents (13-18 years old) from around the world who had direct experience of voice-hearing.
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‘CAMHS around the campfire’ – Voice-hearing in adolesence. ACAMH, February 2021. http://dx.doi.org/10.13056/acamh.14564.

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‘CAMHS around the Campfire’, is our a free live online journal club. This session was on the CAMH paper by Dr. Sarah Parry and Dr. Filippo Varese ‘Whispers, echoes, friends and fears: forms and functions of voice‐hearing in adolescence’. It was recorded on Thursday 28 January 2021. Please visit our Events page for details of upcoming sessions. ACAMH members can now receive a CPD certificate for watching this recorded lecture.
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Whispers, echoes, friends and fears: forms and functions of voice‐hearing in adolescence. ACAMH, July 2020. http://dx.doi.org/10.13056/acamh.12551.

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