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  • 1
    Online Resource
    Online Resource
    Aging and Hearing : Causes and Consequences (2020)
    Cham :Springer International Publishing :
    Details
    Keywords: Neurosciences. ; Otorhinolaryngology. ; Neuroscience. ; Otorhinolaryngology.
    Description / Table of Contents: Ch 1: Listening to All Voices: Interdisciplinary Approaches to Understanding Hearing in Aging -- Ch 2: Genetic and Molecular Aspects of the Aging Auditory System -- Ch 3: The Aging Cochlea and Auditory Nerve -- Ch 4: Age-Related Changes in the Auditory Brainstem and Inferior Colliculus -- Ch 5: Age related changes in the primate auditory cortex -- Ch 6: The Aging Auditory System: Electrophysiology -- Ch 7: Age-Related Changes in Segregation of Sound Sources -- Ch 8: Causes and Consequences of Age-Related Hearing Loss -- Ch 9: Age-Related Changes in Speech Understanding: Peripheral versus Cognitive Influences -- Ch 10: Aging, Hearing Loss, and Listening Effort: Imaging Studies of the Aging Listener -- Ch 11: Functional Consequences of Impaired Hearing in Older Adults and Implications for Intervention -- Ch 12: Emerging Clinical Translational Treatment Strategies for Age-Related Hearing Loss.
    Abstract: This volume provides contemporary discussions on new developments in aging research. It serves as an important update on the current state of research on the aging auditory system. Listening to All Voices: Interdisciplinary Approaches to Understanding Hearing in Aging Karen S. Helfer and Edward L. Bartlett Genetic and Molecular Aspects of the Aging Auditory System Shinichi Someya and Mi-Jung Kim The Aging Cochlea and Auditory Nerve Kevin K. Ohlemiller and Christopher Spankovich Age-Related Changes in the Auditory Brainstem and Inferior Colliculus Josef Syka Age-Related Changes in the Primate Auditory Cortex Gregg Recanzone The Aging Auditory System: Electrophysiology Kelly C. Harris Age-Related Changes in Segregation of Sound Sources Frederick J. Gallun and Virginia Best Causes and Consequences of Age-Related Hearing Loss Jennifer A. Deal, Nicholas S. Reed, Emily C. Pedersen, and Frank R. Lin Age-Related Changes in Speech Understanding: Peripheral versus Cognitive Influences Sandra Gordon-Salant, Maureen J. Shader, and Arthur Wingfield Aging, Hearing Loss, and Listening Effort: Imaging Studies of the Aging Listener Stefanie E. Kuchinsky and Kenneth I. Vaden, Jr. Functional Consequences of Impaired Hearing in Older Adults and Implications for Intervention Larry E. Humes, M. Kathleen Pichora-Fuller, and Louise Hickson Emerging Clinical Translational Treatment Strategies for Age-Related Hearing Loss Robert D. Frisina, Carlos J. Cruz, Tanika T. Williamson, Xiaoxia Zhu, and Bo Ding .
    Type of Medium: Online Resource
    Pages: XVII, 323 p. 62 illus. , online resource.
    Edition: 1st ed. 2020.
    ISBN: 9783030493677
    Series Statement: Springer Handbook of Auditory Research, 72
    URL: https://doi.org/10.1007/978-3-030-49367-7
    DOI: 10.1007/978-3-030-49367-7
    DDC: 612.8
    Language: English
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  • 2
    Online Resource
    Online Resource
    Binaural Hearing : With 93 Illustrations (2021)
    Cham :Springer International Publishing :
    Details
    Keywords: Otorhinolaryngology. ; Neurosciences. ; Otorhinolaryngology. ; Neuroscience.
    Description / Table of Contents: Ch 1: Binaural Processing of Sounds -- Ch 2: Localization and Lateralization of Sound -- Ch 3: Sound Source Localization Is a Multisystem Process -- Ch 4: Anatomy and Physiology of the Avian Binaural System -- Ch 5: Binaural Hearing by the Mammalian Auditory Brainstem: Joint Coding of Interaural Level and Time Differences by the Lateral Superior Olive -- Ch 6: Binaural Hearing with Temporally Complex Signals -- Ch 7: Binaural Hearing and Across-Channel Processing -- Ch 8: Binaural Unmasking and Spatial Release from Masking -- Ch 9: Spatial Hearing in Rooms and Effects of Reverberation -- Ch 10: Computational Models of Binaural Processing -- Ch 11: Clinical Ramifications of the Effects of Hearing Impairment and Aging on Spatial and Binaural Hearing -- Ch 12: Physiology of Higher Central Auditory Processing and Plasticity -- Ch 13: Binaural Hearing with Devices. .
    Abstract: This volume provides an up-to-date reference on the developments and novel ideas in the field of binaural hearing. The primary readership for the volume are specialists in the diverse fields such as psychoacoustics, neuroscience, engineering, psychology, audiology, hearing aids, and cochlear implants.
    Type of Medium: Online Resource
    Pages: XVII, 417 p. 92 illus., 74 illus. in color. , online resource.
    Edition: 1st ed. 2021.
    ISBN: 9783030571009
    Series Statement: Springer Handbook of Auditory Research, 73
    URL: https://doi.org/10.1007/978-3-030-57100-9
    DOI: 10.1007/978-3-030-57100-9
    DDC: 617.51
    Language: English
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  • 3
    Online Resource
    Online Resource
    Speech Perception (2022)
    Cham :Springer International Publishing :
    Details
    Keywords: Neurosciences. ; Neuroscience.
    Description / Table of Contents: 1. The Auditory Cognitive Neuroscience of Speech Perception in Context -- 2. Subcortical Processing of Speech Sounds -- 3. Cortical Representation of Speech Sounds: Insights from Intracranial Electrophysiology -- 4. A Parsimonious Look at Neural Oscillations in Speech Perception -- 5. Extracting Language Content From Speech Sounds: The Information Theoretic Approach -- 6. Speech Perception under Adverse Listening Conditions -- 7. Adaptive Plasticity in Perceiving Speech Sounds -- 8. Development of Speech Perception -- 9. Interactions Between Audition and Cognition in Hearing Loss and Aging.
    Abstract: This volume reviews contemporary developments in the auditory cognitive neuroscience of speech perception, including both behavioral and neural contributions. It serves as an important update on the current state of research in speech perception. The Auditory Cognitive Neuroscience of Speech Perception in Context Lori L. Holt, and Jonathan E. Peelle Subcortical Processing of Speech Sounds Bharath Chandrasekaran, Rachel Tessmer, and G. Nike Gnanateja Cortical Representation of Speech Sounds: Insights from Intracranial Electrophysiology Yulia Oganian, Neal P. Fox, and Edward F. Chang A Parsimonious Look at Neural Oscillations in Speech Perception Sarah Tune, and Jonas Obleser Extracting Language Content From Speech Sounds: The Information Theoretic Approach Laura Gwilliams, and Matthew H. Davis Speech Perception under Adverse Listening Conditions Stephen C. Van Hedger, and Ingrid S. Johnsrude Adaptive Plasticity in Perceiving Speech Sounds Shruti Ullas, Milene Bonte, Elia Formisano, and Jean Vroomen Development of Speech Perception Judit Gervain Interactions Between Audition and Cognition in Hearing Loss and Aging Chad S. Rogers, and Jonathan E. Peelle .
    Type of Medium: Online Resource
    Pages: XVI, 252 p. 33 illus., 29 illus. in color. , online resource.
    Edition: 1st ed. 2022.
    ISBN: 9783030815424
    Series Statement: Springer Handbook of Auditory Research, 74
    URL: https://doi.org/10.1007/978-3-030-81542-4
    DOI: 10.1007/978-3-030-81542-4
    DDC: 612.8
    Language: English
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  • 4
    Online Resource
    Online Resource
    Hair Cell Regeneration (2023)
    Cham :Springer International Publishing :
    Details
    Keywords: Neurosciences. ; Otorhinolaryngology. ; Neuroscience. ; Otorhinolaryngology.
    Description / Table of Contents: Sensory Regeneration in the Inner Ear: History, Strategies and Prospects -- Non-mammalian Hair Cell Regeneration: Cellular Mechanisms of Morphological and Functional Recovery -- Cell Junctions and the Mechanics of Hair Cell Regeneration -- Mammalian Hair Cell Regeneration -- Specification and Plasticity of Mammalian Cochlear Hair Cell Progenitors -- Inner Ear Cells from Stem Cells – a Path Towards Inner Ear Cell Regeneration -- Spiral ganglion neuron regeneration in the cochlea: regeneration of synapses, axons and cells -- Genetic and Epigenetic Strategies for Promoting Hair Cell Regeneration in the Mature Mammalian Inner Ear.
    Abstract: This volume provides a detailed update on progress in the field of hair cell regeneration with emphasis on more "prospective" views of the various facets of regeneration research. Sensory Regeneration in the Inner Ear: History, Strategies and Prospects Mark E. Warchol, and Jennifer S. Stone Non-mammalian Hair Cell Regeneration: Cellular Mechanisms of Morphological and Functional Recovery Madeleine Hewitt, David W. Raible, and Jennifer S. Stone Cell Junctions and the Mechanics of Hair Cell Regeneration Mark A. Rudolf, and Jeffrey T. Corwin Mammalian Hair Cell Regeneration Ruth Taylor, and Andrew Forge Specification and Plasticity of Mammalian Cochlear Hair Cell Progenitors Melissa M. McGovern, and Andrew K. Groves Inner Ear Cells from Stem Cells – a Path Towards Inner Ear Cell Regeneration Amanda Janesick, Eri Hashino, and Stefan Heller Spiral ganglion neuron regeneration in the cochlea: regeneration of synapses, axons and cells Steven H. Green, Sepand Bafti, Benjamin M. Gansemer, A. Eliot Shearer, Muhammad Taifur Rahman, Mark E. Warchol, and Marlan R. Hansen Genetic and Epigenetic Strategies for Promoting Hair Cell Regeneration in the Mature Mammalian Inner Ear Brandon C. Cox, John V. Brigande, and Bradley J. WaltersDr. Mark Warchol is Professor of Otolaryngology at Washington University School of Medicine in St. Louis. Dr. Jennifer Stone is Research Professor of Otolgaryngolldy/Head and Neck Surgery, University of Washington School of Medicine, Seattle. Dr. Allison Coffin is an Associate Professor in the Department of Integrative Physiology and Neuroscience at Washington State University Vancouver. Dr. Arthur N. Popper is Professor Emeritus and research professor in the Department of Biology at the University of Maryland, College Park. Dr. Richard R. Fay (Deceased) was Distinguished Research Professor of Psychology at Loyola University Chicago.
    Type of Medium: Online Resource
    Pages: XVI, 229 p. 44 illus., 35 illus. in color. , online resource.
    Edition: 1st ed. 2023.
    ISBN: 9783031206610
    Series Statement: Springer Handbook of Auditory Research, 75
    URL: https://doi.org/10.1007/978-3-031-20661-0
    DOI: 10.1007/978-3-031-20661-0
    DDC: 612.8
    Language: English
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  • 5
    Online Resource
    Online Resource
    The Neuroethology of Birdsong (2020)
    Cham :Springer International Publishing :
    Details
    Keywords: Neurosciences. ; Otorhinolaryngology. ; Neuroscience. ; Otorhinolaryngology.
    Description / Table of Contents: Scaling the Levels of Birdsong Analysis -- Neural Circuits Underlying Vocal Learning in Songbirds -- New Insights into the Avian Song System and Neuronal Control of Learned Vocalizations -- The Song Circuit as a Model of Basal Ganglia Function -- Integrating Form and Function in the Songbird Auditory Forebrain -- Hormonal Regulation of Avian Auditory Processing -- The Neuroethology of Vocal Communication in Songbirds: Production and Perception of a Call Repertoire -- Linking Features of Genomic Function to Fundamental Features of Learned Vocal Communication -- Vocal Performance in Songbirds: From Mechanisms to Evolution.
    Abstract: This volume provides comprehensive, integrative, and comparative perspectives on birdsong and underscores the importance of birdsong research to behavioral and systems neuroscience, evolutionary biology, and biomedical research. Scaling the Levels of Birdsong Analysis Jon T. Sakata and Sarah C. Woolley Neural Circuits Underlying Vocal Learning in Songbirds Jon T. Sakata and Yoko Yazaki-Sugiyama New Insights into the Avian Song System and Neuronal Control of Learned Vocalizations Karagh Murphy, Koedi S. Lawley, Perry Smith, and Jonathan F. Prather The Song Circuit as a Model of Basal Ganglia Function Arthur Leblois and David J. Perkel Integrating Form and Function in the Songbird Auditory Forebrain Sarah C. Woolley and Sarah M. N. Woolley Hormonal Regulation of Avian Auditory Processing Luke Remage-Healey The Neuroethology of Vocal Communication in Songbirds: Production and Perception of a Call Repertoire Julie E. Elie and Frédéric E. Theunissen Linking Features of Genomic Function to Fundamental Features of Learned Vocal Communication Sarah E. London Vocal Performance in Songbirds: From Mechanisms to Evolution Jeffrey Podos and HaCheol Sung.
    Type of Medium: Online Resource
    Pages: XVIII, 268 p. 37 illus., 30 illus. in color. , online resource.
    Edition: 1st ed. 2020.
    ISBN: 9783030346836
    Series Statement: Springer Handbook of Auditory Research, 71
    URL: https://doi.org/10.1007/978-3-030-34683-6
    DOI: 10.1007/978-3-030-34683-6
    DDC: 612.8
    Language: English
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  • 6
    Online Resource
    Online Resource
    Soundscapes: Humans and Their Acoustic Environment (2023)
    Cham :Springer International Publishing :
    Details
    Keywords: Neurosciences. ; Otorhinolaryngology. ; Neuroscience. ; Otorhinolaryngology.
    Description / Table of Contents: Soundscape – The Development of a New Discipline -- Soundscape: A Construct of Human Perception -- Soundscape: The Holistic Understanding of Acoustic Environments -- Soundscape and Urban Planning -- Architectural Soundscapes: Theories, Methods, and Practice -- Psychoacoustics in Soundscape Research -- Measurements and Techniques in Soundscape Research -- Triangulation as a Tool in Soundscape Research -- Soundscape and Health -- Hospital Soundscape -- How to Put Soundscape into Practice.
    Abstract: The concept of “Soundscape” includes all sounds in an environment and focuses on the interrelationship between person, activity and place, both in space and time. The goal of this volume is to present and review the developments in the field of Soundscape, reflecting standardization procedures and diverse applications. Soundscape – The Development of a New Discipline Brigitte Schulte-Fortkamp, and André Fiebig Soundscape: A Construct of Human Perception André Fiebig Soundscape: The Holistic Understanding of Acoustic Environments Brigitte Schulte-Fortkamp and Pamela Jordan Soundscape and Urban Planning Bennett M. Brooks Architectural Soundscapes: Theories, Methods, and Practice Gary W. Siebein, and Keely M. Siebein Psychoacoustics in Soundscape Research Klaus Genuit, Brigitte Schulte-Fortkamp, and André Fiebig Measurements and Techniques in Soundscape Research Giovanni Brambilla, and André Fiebig Triangulation as a Tool in Soundscape Research Dick Botteldooren, Bert De Coensel, and Francesco Aletta, Jian Soundscape and Health Peter Lercher, and Angel M. Dzhambov Hospital Soundscapes Ilene Busch-Vishniac, and Erica Ryherd How to Put Soundscape into Practice André Fiebig, andBrigitte Schulte-Fortkamp .
    Type of Medium: Online Resource
    Pages: XVII, 330 p. 1 illus. , online resource.
    Edition: 1st ed. 2023.
    ISBN: 9783031227790
    Series Statement: Springer Handbook of Auditory Research, 76
    URL: https://doi.org/10.1007/978-3-031-22779-0
    DOI: 10.1007/978-3-031-22779-0
    DDC: 612.8
    Language: English
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  • 7
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    Auditory evoked potential audiometry in fish (2013)
    Springer
    Details
    Publication Date: 2022-05-25
    Description: © The Author(s), 2013. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Reviews in Fish Biology and Fisheries 23 (2013): 317-364, doi:10.1007/s11160-012-9297-z.
    Description: A recent survey lists more than 100 papers utilizing the auditory evoked potential (AEP) recording technique for studying hearing in fishes. More than 95 % of these AEP-studies were published after Kenyon et al. introduced a non-invasive electrophysiological approach in 1998 allowing rapid evaluation of hearing and repeated testing of animals. First, our review compares AEP hearing thresholds to behaviorally gained thresholds. Second, baseline hearing abilities are described and compared in 111 fish species out of 51 families. Following this, studies investigating the functional significance of various accessory hearing structures (Weberian ossicles, swim bladder, otic bladders) by eliminating these morphological structures in various ways are dealt with. Furthermore, studies on the ontogenetic development of hearing are summarized. The AEP-technique was frequently used to study the effects of high sound/noise levels on hearing in particular by measuring the temporary threshold shifts after exposure to various noise types (white noise, pure tones and anthropogenic noises). In addition, the hearing thresholds were determined in the presence of noise (white, ambient, ship noise) in several studies, a phenomenon termed masking. Various ecological (e.g., temperature, cave dwelling), genetic (e.g., albinism), methodical (e.g., ototoxic drugs, threshold criteria, speaker choice) and behavioral (e.g., dominance, reproductive status) factors potentially influencing hearing were investigated. Finally, the technique was successfully utilized to study acoustic communication by comparing hearing curves with sound spectra either under quiet conditions or in the presence of noise, by analyzing the temporal resolution ability of the auditory system and the detection of temporal, spectral and amplitude characteristics of conspecific vocalizations.
    Description: Support from the Austrian Science Fund (FWF grant 22319 to F.L.).
    Keywords: AEP ; Hearing ; Sound pressure level ; Particle acceleration levels ; Thresholds ; Noise ; Ontogeny ; Communication
    Repository Name: Woods Hole Open Access Server
    Type: Article
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  • 8
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    Use of the swim bladder and lateral line in near-field sound source localization by fishes (2014)
    Details
    Publication Date: 2022-05-26
    Description: Author Posting. © The Author(s), 2014. This is the author's version of the work. It is posted here by permission of Company of Biologists for personal use, not for redistribution. The definitive version was published in Journal of Experimental Biology 217 (2014): 2078-2088, doi:10.1242/​jeb.093831.
    Description: We investigated the roles of the swim bladder and the lateral line system in sound localization behavior by the plainfin midshipman fish (Porichthys notatus). Reproductive female midshipman underwent either surgical deflation of the swim bladder or cryoablation of the lateral line and were then tested in a monopolar sound source localization task. Fish with nominally “deflated” swim bladders performed similar to sham-deflated controls; however, post-experiment evaluation of swim bladder deflation revealed that a majority of “deflated” fish (88%, 7 of the 8 fish) that exhibited positive phonotaxis had partially inflated swim bladders. In total, 95% (21/22) of fish that localized the source had at least partially inflated swim- bladders, indicating that pressure reception is likely required for sound source localization. In lateral line experiments, no difference was observed in the proportion of females exhibiting positive phonotaxis with ablated- (37%) versus sham-ablated (47%) lateral line systems. These data suggest that the lateral line system is likely not required for sound source localization, although this system may be important for fine- tuning the approach to the sound source. We found that midshipman can solve the 180° ambiguity of source direction in the shallow water of our test tank, which is similar to their nesting environment. We also found that the potential directional cues (phase relationship between pressure and particle motion) in shallow water differs from a theoretical free-field. Therefore, the general question of how fish use acoustic pressure cues to solve the 180° ambiguity of source direction from the particle motion vector remains unresolved.
    Description: This collaborative research was supported by the National Science Foundation (IOS-0642214 to J.A.S. and R.R.F).
    Description: 2015-03-27
    Repository Name: Woods Hole Open Access Server
    Type: Preprint
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  • 9
    Electronic Resource
    Electronic Resource
    Forward masking and suppression in the midbrain of the southern grey treefrog (Hyla chrysoscelis) (1982)
    Springer
    Journal of comparative physiology 146 (1982), S. 435-447 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. Characteristics of the midbrain averaged evoked potential (AEP) in the southern grey treefrog (Hyla chrysoscelis) are documented. This potential reflects the response of neuron populations to both simple and complex auditory stimuli and should have great practical importance for comparative and developmental studies. 2. A slow and fast component of this potential are demonstrated which grow in amplitude linearly with signal intensity but which are subject to different masking effects. Masking is a robust phenomenon for the slow component and is studied in depth. 3. Application of a preceding (forward) masker tone causes a reduction in the response to a tonal signal (probe). Maximal masking effects require a masker that is 0 to +10 dB re: probe level, 10 to 40 ms in duration and separated from probe offset by an interstimulus interval of 20 ms or less. 4. The effectiveness of a masker is studied as a function of its frequency relative to that of the probe. These forward masking ‘tuning curves’ are similar to tuning curves from single units of the eighth nerve and midbrain of other anuran species. Q10 values vary from 0.73 to 2.22. Tuning curves with low or mid-frequency sensitivity show a continuous distribution of best frequencies while high frequency tuning curves are apparently limited to a single narrow range of best frequencies. 5. Two tone suppression experiments using the AEP document the existence of this phenomenon at the level of the torus semicircularis.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00609440
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  • 10
    Electronic Resource
    Electronic Resource
    Phase-locking in goldfish saccular nerve fibres accounts for frequency discrimination capacities (1978)
    [s.l.] : Nature Publishing Group
    Nature 275 (1978), S. 320-322 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] The details of the method used for the neurophysiological measurements have been published previously7. Phase-locking variability of single saccular neurones of the goldfish was measured in response to tones presented at the frequencies and amplitudes used in behavioural measurements of frequency ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/275320a0
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