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Basic fundamentals in hearing science / / Tony L. Sahley, PhD, CCC-A, Frank E. Musiek, PhD, CCC-A
| Basic fundamentals in hearing science / / Tony L. Sahley, PhD, CCC-A, Frank E. Musiek, PhD, CCC-A |
| Autore | Sahley Tony L. |
| Pubbl/distr/stampa | San Diego, California : , : Plural Publishing, Inc., , 2015 |
| Descrizione fisica | 1 online resource (705 pages) : illustrations |
| Disciplina | 612.85 |
| Soggetto topico | Ear - Physiology |
| Soggetto genere / forma | Electronic books. |
| ISBN | 1-59756-929-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910466771103321 |
Sahley Tony L.
|
||
| San Diego, California : , : Plural Publishing, Inc., , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Basic fundamentals in hearing science / / Tony L. Sahley, PhD, CCC-A, Frank E. Musiek, PhD, CCC-A
| Basic fundamentals in hearing science / / Tony L. Sahley, PhD, CCC-A, Frank E. Musiek, PhD, CCC-A |
| Autore | Sahley Tony L. |
| Pubbl/distr/stampa | San Diego, California : , : Plural Publishing, Inc., , 2015 |
| Descrizione fisica | 1 online resource (705 pages) : illustrations |
| Disciplina | 612.85 |
| Soggetto topico | Ear - Physiology |
| ISBN | 1-59756-929-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | What is science? -- Measurement -- Basic terminology for hearing science -- Application of the basic principles in hearing science -- Harmonic motion -- The measurement of sound -- Acoustics -- Psychoacoustics -- Nervous system terminology : the structure and function of neurons and the cranial nerves -- Anatomy and physiology of hearing. |
| Record Nr. | UNINA-9910795930903321 |
|
Sahley Tony L.
|
||
| San Diego, California : , : Plural Publishing, Inc., , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Basic fundamentals in hearing science / / Tony L. Sahley, PhD, CCC-A, Frank E. Musiek, PhD, CCC-A
| Basic fundamentals in hearing science / / Tony L. Sahley, PhD, CCC-A, Frank E. Musiek, PhD, CCC-A |
| Autore | Sahley Tony L. |
| Pubbl/distr/stampa | San Diego, California : , : Plural Publishing, Inc., , 2015 |
| Descrizione fisica | 1 online resource (705 pages) : illustrations |
| Disciplina | 612.85 |
| Soggetto topico | Ear - Physiology |
| ISBN | 1-59756-929-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | What is science? -- Measurement -- Basic terminology for hearing science -- Application of the basic principles in hearing science -- Harmonic motion -- The measurement of sound -- Acoustics -- Psychoacoustics -- Nervous system terminology : the structure and function of neurons and the cranial nerves -- Anatomy and physiology of hearing. |
| Record Nr. | UNINA-9910808574103321 |
|
Sahley Tony L.
|
||
| San Diego, California : , : Plural Publishing, Inc., , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Basic science review for otolaryngology [[electronic resource] /] / editor, Thomas Van De Water; associate editor, Hinrich Staecker
| Basic science review for otolaryngology [[electronic resource] /] / editor, Thomas Van De Water; associate editor, Hinrich Staecker |
| Pubbl/distr/stampa | New York, : Thieme, 2006 |
| Descrizione fisica | 1 online resource (785 p.) |
| Disciplina | 616.5/1 |
| Altri autori (Persone) |
Van De WaterThomas
StaeckerHinrich |
| Soggetto topico |
Otolaryngology
Ear - Physiology Respiratory organs - Physiology |
| Soggetto genere / forma | Electronic books. |
| ISBN |
9786612999796
1-282-99979-6 1-58890-587-X 9781588905873 1-4237-8822-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Otolaryngology: Basic Science and Clinical Review; Title Page; Copyright; Dedication; Contents; Preface; Foreword; Contributors; Part I: The Basic Principles; Chapter 1: Surgical Hemostasis; Chapter 2: Wound Healing; Chapter 3: Basic Principles of Allergic Diseases; Chapter 4: Head and Neck Manifestations of Rheumatological Diseases; Chapter 5: Pulmonary Physiology and Mechanical Ventilation; Chapter 6: Biology and Treatment of Sleep Apnea; Chapter 7: Microbiology, Virology, and Mechanisms of Infection; Chapter 8: Principles of Pharmacology; Chapter 9: Ototoxicity
Chapter 10A: Oncology of Head and Neck TumorsChapter 10B: Immunobiology and Immunotherapy of Headand Neck Squamous Carcinoma; Chapter 11: Clinical Radiation Biology and Radiotherapy; Chapter 12: Environmental Effects on the Upper Airway; Chapter 13: How To Conduct Clinical Research; Chapter 14 Basic Principles and Current Applications of Lasers in Head and Neck Surgery; Chapter 15: Molecular Biology for the Otolaryngologist; Chapter 16: Physiology of the Pediatric Patient; Chapter 17: Branchial Cleft Anatomy and Congenital Neck Masses; Chapter 18: Pathophysiology of Stridor and Airway Disease Chapter 19: Clinical Genetics in OtolaryngologyPart II: The Ear, Hearing, and Balance; Chapter 20: Embryology of the Outer, Middle, and Inner Ear; Chapter 21: Acoustics and Middle Ear Mechanics for Otolaryngology; Chapter 22: Surgical Anatomy of the Temporal Bone; Chapter 23: Histology and Histopathology of the Temporal Bone; Chapter 24 Ultrastructural Anatomy of the Cochlea; Chapter 25: Hair Cell Function; Chapter 26: Auditory Processing in Sensorineural Hearing Loss; Chapter 27: Pathways of Hearing and Balance; Chapter 28: Assessment of Central Auditory Function Chapter 29: Language and the Plastic BrainChapter 30: Principles of Audiometry; Chapter 31: Hearing Aids, Bone-Anchored Hearing Aids, and Cochlear Implants; Chapter 32: Mechanism of Noise-Induced Hearing Lossand Otoprotective Strategies; Chapter 33: Vestibular System Physiology; Chapter 34: Testing Balance and the Vestibular System; Chapter 35: Morphophysiology of the Facial Nerve; Chapter 36: Radiology of the Temporal Bone; Part III: The Nose, Olfaction, and the Sinuses; Chapter 37: Development of the Nose; Chapter 38: Surgical Anatomy of the Noseand Paranasal Sinuses Chapter 39: Nasal and Paranasal Sinus PhysiologyChapter 40: The Biology and Testing of Olfactory Dysfunction; Part IV: The Larynx, Voice, and Neck; Chapter 41: The Branchial Arches and their Derivatives; Chapter 42: Morphophysiology of the Larynx; Chapter 43: Neurological Disorders of the Larynx; Chapter 44: Basics of Voice Production; Chapter 45: Principles of Phonosurgery; Chapter 46: Surgical Anatomy of the Pharynx and Esophagus; Chapter 47: The Biology of Swallowing; Chapter 48: Laryngeal Pathology; Chapter 49 Origins and Specification of Craniofacial Musculoskeletal Tissues Chapter 50: Surgical Anatomy of the Neck and Classification of Dissections |
| Record Nr. | UNINA-9910450494303321 |
| New York, : Thieme, 2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Hearing science fundamentals / / Norman J. Lass, Jeremy J. Donai
| Hearing science fundamentals / / Norman J. Lass, Jeremy J. Donai |
| Autore | Lass Norman J. |
| Edizione | [Second edition.] |
| Pubbl/distr/stampa | San Diego, CA : , : Plural Publishing, Inc., , [2023] |
| Descrizione fisica | 1 online resource (395 pages) : illustrations |
| Disciplina | 612.8/5 |
| Soggetto topico |
Hearing - Physiology
Ear - Physiology Auditory perception - Physiology Psychoacoustics |
| ISBN | 1-63550-329-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Acknowledgments -- Contributors -- Reviewers -- Section I: Acoustics -- 1. Basic Acoustics -- Key Terms -- Learning Objectives -- Sound -- Sinusoidal Motion -- Spatial Concepts -- Amplitude -- Wavelength (?) -- Temporal Concepts -- Cycle -- Period -- Frequency -- Phase -- Velocity -- Frequency/Period Relationship -- Frequency/Wavelength Relationship -- Sound Propagation and Interference -- Complex Sounds -- Periodicity Versus Aperiodicity -- Resonance -- Cavity (Acoustical) Resonance -- Frequency Response Curve -- Ear Canal Analogy -- The Decibel -- Computational Perspective -- Hearing Threshold Level and Audiometric Zero (0 dB HL) -- Summary -- Recommended Readings -- References -- 2 Review of Speech Acoustics -- Key Terms -- Learning Objectives -- Source-Filter Theory and Vocal Tract Anatomy -- Acoustic Measures -- Fundamental Frequency -- Voice Onset Time -- Root Mean Square Amplitude -- Formants (Spectral Resonances) -- Long-Term Average Spectrum (LTAS) -- Speech Sound Classification -- Consonant Classification -- Vowel Classification -- Speech Intelligibility Index (SII) and Count-the-Dots Audiogram -- SII -- Count-the-Dots Audiogram -- Ling 6 Sounds Test -- Summary -- Recommended Readings -- References -- 3. Digital Signal Processing -- Key Terms -- Learning Objectives -- Amplitude Quantization and Sampling Frequency -- Aliasing and Anti-Aliasing Filtering -- Windowing -- Frequency Versus Time Tradeoff (Frequency Resolution Versus Temporal Resolution) -- Pre-Emphasis -- Digital Hearing Aid Signal Processing -- Compression -- Directional Microphones and Digital Noise Reduction -- Summary -- Recommended Readings -- References -- Section II: Structure and Function -- 4. Anatomy and Physiology of the Conductive Auditory Mechanism -- Key Terms -- Learning Objectives -- Outer Ear -- Auricle (Pinna).
External Auditory Meatus (Outer Ear Canal) -- Tympanic Membrane (Eardrum) -- Middle Ear -- Tympanic Cavity Proper (Tympanum) -- Malleus -- Incus -- Stapes -- Middle Ear Muscles -- Function of the Conductive Mechanism -- Non-Acoustic Function -- Acoustic Function -- Impedance -- Impedance Mismatch -- Auditory (Eustachian) Tube -- Action of the Middle Ear Muscles -- Summary -- Recommended Readings -- References -- 5. Anatomy and Physiology of the Sensory Auditory Mechanism -- Key Terms -- Learning Objectives -- Inner Ear -- Function of the Sensory Mechanism -- Mechanical Properties -- Active Processes -- Cochlear Electrophysiology -- Resting Potential -- Potentials Seen as Response to Stimulation -- Single-Cell Electrical Activity -- Phase Locking -- Summary -- Recommended Readings -- References -- 6. Anatomy and Physiology of the Central Auditory Mechanism -- Key Terms -- Learning Objectives -- Afferent Central Auditory Pathway -- Interhemispheric Connections -- Efferent Central Auditory Pathway -- Summary -- Recommended Readings -- References -- Section III: Psychoacoustics -- 7. Normal Hearing -- Key Terms -- Learning Objectives -- Stimulus Characteristics -- Stimulus Frequency -- Stimulus Duration -- Stimulus Intensity -- Methods of Stimulus Presentation -- Earphones -- Speakers -- Assessment of Auditory Sensitivity -- Method of Limits -- Method of Adjustment -- Method of Constant Stimuli -- Listener (Subject) Variables -- Age Variation -- What Is "Normal Hearing"? -- Localization of Sound -- Interaural Intensity (Level) Cues for Localization -- Interaural Time (Phase) Cues for Localization -- Hearing by Bone Conduction -- Summary -- Recommended Readings -- References -- 8. Binaural Processing -- Key Terms -- Learning Objectives -- Advantages of Binaural Hearing -- Listening in Noise -- Binaural Squelch -- Directional Hearing -- Localization. Lateralization -- Vertical Localization -- Minimal Audible Angle (MAA) -- Minimal Audible Movement Angle (MAMA) -- Distance Perception -- Precedence Effect -- Disadvantages of Binaural Hearing -- Physiology of Binaural Hearing -- Afferent Pathways -- Efferent Pathways -- Summary -- Recommended Readings -- References -- 9. Masking -- Key Terms -- Learning Objectives -- Masker-Signal Relationship and Sound Level -- Masking of Tones by Other Tones -- Masking of Tones by Narrow Noise Bands -- The Critical Band -- Masking of Tones by Wide Noise Bands -- Special Cases of Masking -- Energetic and Informational Masking -- Masking in Clinical Audiology -- Summary -- Recommended Readings -- References -- 10. Temporal Processing -- Key Terms -- Learning Objectives -- Neural Physiology -- Temporal Fine Structure and Temporal Envelope -- Dip Listening -- Modulation Rate and Modulation Depth -- Temporal Processing Skills -- Temporal Integration -- Temporal Resolution -- Temporal Patterning -- Temporal Masking -- Summary -- Recommended Readings -- References -- 11. Loudness and Pitch -- Key Terms -- Learning Objectives -- Loudness -- Pitch -- Residue Pitch and the Missing Fundamental -- Summary -- Recommended Readings -- References -- 12. Differential Sensitivity -- Key Terms -- Learning Objectives -- The Fechner-Weber Fraction -- Difference Limen for Intensity -- Difference Limen for Frequency -- Temporal Discrimination -- Summary -- Recommended Readings -- References -- 13. Signal Detection Theory -- Key Terms -- Learning Objectives -- Response Distributions -- Response Types -- Sensitivity and Specificity -- Response Bias -- Discriminability Index (d') and ROC Curves -- Ceiling and Floor Effects -- Summary -- Recommended Readings -- References -- 14. Auditory Perception and Hearing Impairment -- Key Terms -- Learning Objectives -- Outer Hair Cell (OHC) Damage. Auditory Recruitment -- Inner Hair Cell (IHC) Damage -- Cochlear Dead Regions -- Auditory Nerve Damage -- Effects on Frequency Selectivity -- Auditory Excitation Patterns -- Effects on Temporal Processing -- Summary -- Recommended Readings -- References -- Section IV: Pathologies of the Auditory Mechanisms -- 15. Pathologies of the Conductive Auditory Mechanism -- Key Terms -- Learning Objectives -- Pathologies of the Outer Ear -- Auricle -- Chondritis and Cauliflower Ear -- External Auditory Canal -- Impacted Cerumen -- Pathologies of the Middle Ear -- Eustachian Tube (Auditory Tube) -- Otitis Media -- Mastoiditis -- Cholesteatoma -- Pathologies of the Middle Ear Ossicles -- Otosclerosis -- Ossicular Discontinuity -- Summary -- Recommended Readings -- References -- 16. Pathologies of the Sensory Auditory Mechanism -- Key Terms -- Learning Objectives -- Inner Ear Pathologies -- Cochlea -- Auditory and Non-Auditory Effects of Noise -- Noise-Induced Hearing Loss -- Socioacusis and Presbycusis -- Meniere's Disease -- Sudden Sensorineural Hearing Loss -- Ototoxicity -- Auditory Nerve -- Acoustic Neuroma (Vestibular Schwannoma) -- Auditory Neuropathy Spectrum Disorder -- Summary -- Recommended Readings -- References -- 17. Pathologies of the Central Auditory Mechanism -- Key Terms -- Learning Objectives -- (Central) Auditory Processing Definition -- Signs and Symptoms -- (C)APD Evaluation -- Behavioral (Central) Auditory Skill Areas -- Auditory Figure Ground -- Low-Redundancy Speech -- Dichotic Listening -- Temporal Processing -- Electrophysiological Assessment -- Neural Response Overview -- Management Strategies -- Environmental Modifications -- Compensatory Strategies -- Auditory Training -- Assistive Listening Technology -- Pathologies of the Central Auditory Pathway -- Traumatic Brain Injury -- Cortical/Central Deafness -- Cerebrovascular Accident. Multiple Sclerosis -- Summary -- Recommended Readings -- References -- Glossary -- Index. |
| Record Nr. | UNINA-9910795381503321 |
|
Lass Norman J.
|
||
| San Diego, CA : , : Plural Publishing, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Hearing science fundamentals / / Norman J. Lass, Jeremy J. Donai
| Hearing science fundamentals / / Norman J. Lass, Jeremy J. Donai |
| Autore | Lass Norman J. |
| Edizione | [Second edition.] |
| Pubbl/distr/stampa | San Diego, CA : , : Plural Publishing, Inc., , [2023] |
| Descrizione fisica | 1 online resource (395 pages) : illustrations |
| Disciplina | 612.8/5 |
| Soggetto topico |
Hearing - Physiology
Ear - Physiology Auditory perception - Physiology Psychoacoustics |
| ISBN | 1-63550-329-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Acknowledgments -- Contributors -- Reviewers -- Section I: Acoustics -- 1. Basic Acoustics -- Key Terms -- Learning Objectives -- Sound -- Sinusoidal Motion -- Spatial Concepts -- Amplitude -- Wavelength (?) -- Temporal Concepts -- Cycle -- Period -- Frequency -- Phase -- Velocity -- Frequency/Period Relationship -- Frequency/Wavelength Relationship -- Sound Propagation and Interference -- Complex Sounds -- Periodicity Versus Aperiodicity -- Resonance -- Cavity (Acoustical) Resonance -- Frequency Response Curve -- Ear Canal Analogy -- The Decibel -- Computational Perspective -- Hearing Threshold Level and Audiometric Zero (0 dB HL) -- Summary -- Recommended Readings -- References -- 2 Review of Speech Acoustics -- Key Terms -- Learning Objectives -- Source-Filter Theory and Vocal Tract Anatomy -- Acoustic Measures -- Fundamental Frequency -- Voice Onset Time -- Root Mean Square Amplitude -- Formants (Spectral Resonances) -- Long-Term Average Spectrum (LTAS) -- Speech Sound Classification -- Consonant Classification -- Vowel Classification -- Speech Intelligibility Index (SII) and Count-the-Dots Audiogram -- SII -- Count-the-Dots Audiogram -- Ling 6 Sounds Test -- Summary -- Recommended Readings -- References -- 3. Digital Signal Processing -- Key Terms -- Learning Objectives -- Amplitude Quantization and Sampling Frequency -- Aliasing and Anti-Aliasing Filtering -- Windowing -- Frequency Versus Time Tradeoff (Frequency Resolution Versus Temporal Resolution) -- Pre-Emphasis -- Digital Hearing Aid Signal Processing -- Compression -- Directional Microphones and Digital Noise Reduction -- Summary -- Recommended Readings -- References -- Section II: Structure and Function -- 4. Anatomy and Physiology of the Conductive Auditory Mechanism -- Key Terms -- Learning Objectives -- Outer Ear -- Auricle (Pinna).
External Auditory Meatus (Outer Ear Canal) -- Tympanic Membrane (Eardrum) -- Middle Ear -- Tympanic Cavity Proper (Tympanum) -- Malleus -- Incus -- Stapes -- Middle Ear Muscles -- Function of the Conductive Mechanism -- Non-Acoustic Function -- Acoustic Function -- Impedance -- Impedance Mismatch -- Auditory (Eustachian) Tube -- Action of the Middle Ear Muscles -- Summary -- Recommended Readings -- References -- 5. Anatomy and Physiology of the Sensory Auditory Mechanism -- Key Terms -- Learning Objectives -- Inner Ear -- Function of the Sensory Mechanism -- Mechanical Properties -- Active Processes -- Cochlear Electrophysiology -- Resting Potential -- Potentials Seen as Response to Stimulation -- Single-Cell Electrical Activity -- Phase Locking -- Summary -- Recommended Readings -- References -- 6. Anatomy and Physiology of the Central Auditory Mechanism -- Key Terms -- Learning Objectives -- Afferent Central Auditory Pathway -- Interhemispheric Connections -- Efferent Central Auditory Pathway -- Summary -- Recommended Readings -- References -- Section III: Psychoacoustics -- 7. Normal Hearing -- Key Terms -- Learning Objectives -- Stimulus Characteristics -- Stimulus Frequency -- Stimulus Duration -- Stimulus Intensity -- Methods of Stimulus Presentation -- Earphones -- Speakers -- Assessment of Auditory Sensitivity -- Method of Limits -- Method of Adjustment -- Method of Constant Stimuli -- Listener (Subject) Variables -- Age Variation -- What Is "Normal Hearing"? -- Localization of Sound -- Interaural Intensity (Level) Cues for Localization -- Interaural Time (Phase) Cues for Localization -- Hearing by Bone Conduction -- Summary -- Recommended Readings -- References -- 8. Binaural Processing -- Key Terms -- Learning Objectives -- Advantages of Binaural Hearing -- Listening in Noise -- Binaural Squelch -- Directional Hearing -- Localization. Lateralization -- Vertical Localization -- Minimal Audible Angle (MAA) -- Minimal Audible Movement Angle (MAMA) -- Distance Perception -- Precedence Effect -- Disadvantages of Binaural Hearing -- Physiology of Binaural Hearing -- Afferent Pathways -- Efferent Pathways -- Summary -- Recommended Readings -- References -- 9. Masking -- Key Terms -- Learning Objectives -- Masker-Signal Relationship and Sound Level -- Masking of Tones by Other Tones -- Masking of Tones by Narrow Noise Bands -- The Critical Band -- Masking of Tones by Wide Noise Bands -- Special Cases of Masking -- Energetic and Informational Masking -- Masking in Clinical Audiology -- Summary -- Recommended Readings -- References -- 10. Temporal Processing -- Key Terms -- Learning Objectives -- Neural Physiology -- Temporal Fine Structure and Temporal Envelope -- Dip Listening -- Modulation Rate and Modulation Depth -- Temporal Processing Skills -- Temporal Integration -- Temporal Resolution -- Temporal Patterning -- Temporal Masking -- Summary -- Recommended Readings -- References -- 11. Loudness and Pitch -- Key Terms -- Learning Objectives -- Loudness -- Pitch -- Residue Pitch and the Missing Fundamental -- Summary -- Recommended Readings -- References -- 12. Differential Sensitivity -- Key Terms -- Learning Objectives -- The Fechner-Weber Fraction -- Difference Limen for Intensity -- Difference Limen for Frequency -- Temporal Discrimination -- Summary -- Recommended Readings -- References -- 13. Signal Detection Theory -- Key Terms -- Learning Objectives -- Response Distributions -- Response Types -- Sensitivity and Specificity -- Response Bias -- Discriminability Index (d') and ROC Curves -- Ceiling and Floor Effects -- Summary -- Recommended Readings -- References -- 14. Auditory Perception and Hearing Impairment -- Key Terms -- Learning Objectives -- Outer Hair Cell (OHC) Damage. Auditory Recruitment -- Inner Hair Cell (IHC) Damage -- Cochlear Dead Regions -- Auditory Nerve Damage -- Effects on Frequency Selectivity -- Auditory Excitation Patterns -- Effects on Temporal Processing -- Summary -- Recommended Readings -- References -- Section IV: Pathologies of the Auditory Mechanisms -- 15. Pathologies of the Conductive Auditory Mechanism -- Key Terms -- Learning Objectives -- Pathologies of the Outer Ear -- Auricle -- Chondritis and Cauliflower Ear -- External Auditory Canal -- Impacted Cerumen -- Pathologies of the Middle Ear -- Eustachian Tube (Auditory Tube) -- Otitis Media -- Mastoiditis -- Cholesteatoma -- Pathologies of the Middle Ear Ossicles -- Otosclerosis -- Ossicular Discontinuity -- Summary -- Recommended Readings -- References -- 16. Pathologies of the Sensory Auditory Mechanism -- Key Terms -- Learning Objectives -- Inner Ear Pathologies -- Cochlea -- Auditory and Non-Auditory Effects of Noise -- Noise-Induced Hearing Loss -- Socioacusis and Presbycusis -- Meniere's Disease -- Sudden Sensorineural Hearing Loss -- Ototoxicity -- Auditory Nerve -- Acoustic Neuroma (Vestibular Schwannoma) -- Auditory Neuropathy Spectrum Disorder -- Summary -- Recommended Readings -- References -- 17. Pathologies of the Central Auditory Mechanism -- Key Terms -- Learning Objectives -- (Central) Auditory Processing Definition -- Signs and Symptoms -- (C)APD Evaluation -- Behavioral (Central) Auditory Skill Areas -- Auditory Figure Ground -- Low-Redundancy Speech -- Dichotic Listening -- Temporal Processing -- Electrophysiological Assessment -- Neural Response Overview -- Management Strategies -- Environmental Modifications -- Compensatory Strategies -- Auditory Training -- Assistive Listening Technology -- Pathologies of the Central Auditory Pathway -- Traumatic Brain Injury -- Cortical/Central Deafness -- Cerebrovascular Accident. Multiple Sclerosis -- Summary -- Recommended Readings -- References -- Glossary -- Index. |
| Record Nr. | UNINA-9910823520303321 |
|
Lass Norman J.
|
||
| San Diego, CA : , : Plural Publishing, Inc., , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
An introduction to the physiology of hearing [[electronic resource] /] / James Pickles
| An introduction to the physiology of hearing [[electronic resource] /] / James Pickles |
| Autore | Pickles James O |
| Edizione | [4th ed.] |
| Pubbl/distr/stampa | Bingley, : Emerald, 2012 |
| Descrizione fisica | 1 online resource (459 p.) |
| Disciplina | 612.85 |
| Soggetto topico |
Hearing
Ear - Physiology |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-283-54865-8
9786613861108 1-78052-167-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front cover; An Introduction to the physiology of hearing; Copyright page; Contents; Preface to the fourth edition; From the preface to the first edition; Abbreviations; Reading plan; 1 The physics and analysis of sound; 1.1 The nature of sound; 1.2 The decibel scale; 1.3 Impedance; 1.4 The analysis of sound; 1.5 Linearity; 1.6 Summary; 2 The outer and middle ears; 2.1 The outer ear; 2.1.1 The pressure gain of the outer ear; 2.1.2 The outer ear as an aid to sound localization; 2.2 The middle ear; 2.2.1 Introduction; 2.2.2 The middle ear as an impedance transformer
2.2.3 The middle ear muscles2.3 Summary; 2.4 Further reading; 3 The cochlea; 3.1 Anatomy; 3.1.1 General anatomy; 3.1.2 The organ of Corti; 3.1.3 The innervation of the organ of Corti; 3.2 The mechanics of the cochlea; 3.2.1 The travelling wave; 3.2.2 Current measurements of the travelling wave; 3.2.3 Theories of cochlear mechanics; 3.3 The fluid spaces of the cochlea; 3.3.1 The endolymphatic and perilymphatic spaces; 3.3.2 The endolymph; 3.3.3 The perilymph; 3.4 Hair cell responses; 3.4.1 Hair cell responses in vitro; 3.4.2 Inner hair cell responses in vivo 3.4.3 Outer hair cell responses in vivo3.5 The gross evoked potentials; 3.5.1 The cochlear microphonic; 3.5.2 The summating potential; 3.5.3 The gross neural potentials; 3.6 Summary; 3.7 Further reading; 4 The auditory nerve; 4.1 Anatomy; 4.2 Physiology; 4.2.1 Response to tones; 4.2.2 Response to clicks; 4.2.3 Frequency resolution as a function of intensity and type of stimulation; 4.2.4 Response to complex stimuli; 4.3 Summary; 4.4 Further reading; 5 Mechanisms of transduction and excitation in the cochlea; 5.1 Introduction; 5.2 The structure of the transducer region 5.2.1 Stereocilia and cuticular plate5.2.2 The cross-linking of stereocilia; 5.2.3 The mechanotransducer channels; 5.3 The electrophysiological analysis of mechanotransduction; 5.3.1 Cell membrane potentials; 5.3.2 Mechanotransduction; 5.4 The origin of sharp tuning in the cochlea; 5.4.1 Is an active process necessary theoretically?; 5.4.2 Models incorporating an active mechanical process; 5.4.3 Outer hair cells: needed for low thresholds and sharp tuning; 5.4.4 Active mechanical processes in the cochlea: cochlear emissions; 5.4.5 Motility in outer hair cells; 5.4.6 Cochlear micromechanics 5.4.7 Conclusions on cochlear mechanical amplification5.5 Hair cells and neural excitation; 5.5.1 Stimulus coupling to inner and outer hair cells; 5.5.2 Activation of auditory nerve fibres; 5.5.3 Neurotransmitter release; 5.6 Cochlear non-linearity; 5.6.1 The non-linear growth of cochlear responses; 5.6.2 Two-tone suppression; 5.6.3 Combination tones; 5.7 Summary; 5.8 Further reading; 6 The subcortical nuclei; 6.1 Considerations in studying the auditory central nervous system; 6.2 The cochlear nuclei; 6.2.1 Output pathways; 6.2.2 Input pathways 6.2.3 The ventral binaural sound localization stream: the bushy cells of the anteroventral and posteroventral cochlear nucleus |
| Record Nr. | UNINA-9910465288903321 |
|
Pickles James O
|
||
| Bingley, : Emerald, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
An introduction to the physiology of hearing / / James Pickles
| An introduction to the physiology of hearing / / James Pickles |
| Autore | Pickles James O. |
| Edizione | [4th ed.] |
| Pubbl/distr/stampa | Bingley, : Emerald, 2012 |
| Descrizione fisica | 1 online resource (459 pages) |
| Disciplina | 612.85 |
| Soggetto topico |
Hearing
Ear - Physiology |
| ISBN |
1-283-54865-8
9786613861108 1-78052-167-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910791703603321 |
|
Pickles James O.
|
||
| Bingley, : Emerald, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
An introduction to the physiology of hearing / / James Pickles
| An introduction to the physiology of hearing / / James Pickles |
| Autore | Pickles James O. |
| Edizione | [4th ed.] |
| Pubbl/distr/stampa | Bingley, : Emerald, 2012 |
| Descrizione fisica | 1 online resource (459 pages) |
| Disciplina | 612.85 |
| Soggetto topico |
Hearing
Ear - Physiology |
| ISBN |
1-283-54865-8
9786613861108 1-78052-167-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front cover -- An Introduction to the physiology of hearing -- Copyright page -- Contents -- Preface to the fourth edition -- From the preface to the first edition -- Abbreviations -- Reading plan -- 1 The physics and analysis of sound -- 1.1 The nature of sound -- 1.2 The decibel scale -- 1.3 Impedance -- 1.4 The analysis of sound -- 1.5 Linearity -- 1.6 Summary -- 2 The outer and middle ears -- 2.1 The outer ear -- 2.1.1 The pressure gain of the outer ear -- 2.1.2 The outer ear as an aid to sound localization -- 2.2 The middle ear -- 2.2.1 Introduction -- 2.2.2 The middle ear as an impedance transformer -- 2.2.3 The middle ear muscles -- 2.3 Summary -- 2.4 Further reading -- 3 The cochlea -- 3.1 Anatomy -- 3.1.1 General anatomy -- 3.1.2 The organ of Corti -- 3.1.3 The innervation of the organ of Corti -- 3.2 The mechanics of the cochlea -- 3.2.1 The travelling wave -- 3.2.2 Current measurements of the travelling wave -- 3.2.3 Theories of cochlear mechanics -- 3.3 The fluid spaces of the cochlea -- 3.3.1 The endolymphatic and perilymphatic spaces -- 3.3.2 The endolymph -- 3.3.3 The perilymph -- 3.4 Hair cell responses -- 3.4.1 Hair cell responses in vitro -- 3.4.2 Inner hair cell responses in vivo -- 3.4.3 Outer hair cell responses in vivo -- 3.5 The gross evoked potentials -- 3.5.1 The cochlear microphonic -- 3.5.2 The summating potential -- 3.5.3 The gross neural potentials -- 3.6 Summary -- 3.7 Further reading -- 4 The auditory nerve -- 4.1 Anatomy -- 4.2 Physiology -- 4.2.1 Response to tones -- 4.2.2 Response to clicks -- 4.2.3 Frequency resolution as a function of intensity and type of stimulation -- 4.2.4 Response to complex stimuli -- 4.3 Summary -- 4.4 Further reading -- 5 Mechanisms of transduction and excitation in the cochlea -- 5.1 Introduction -- 5.2 The structure of the transducer region -- 5.2.1 Stereocilia and cuticular plate.
5.2.2 The cross-linking of stereocilia -- 5.2.3 The mechanotransducer channels -- 5.3 The electrophysiological analysis of mechanotransduction -- 5.3.1 Cell membrane potentials -- 5.3.2 Mechanotransduction -- 5.4 The origin of sharp tuning in the cochlea -- 5.4.1 Is an active process necessary theoretically? -- 5.4.2 Models incorporating an active mechanical process -- 5.4.3 Outer hair cells: needed for low thresholds and sharp tuning -- 5.4.4 Active mechanical processes in the cochlea: cochlear emissions -- 5.4.5 Motility in outer hair cells -- 5.4.6 Cochlear micromechanics -- 5.4.7 Conclusions on cochlear mechanical amplification -- 5.5 Hair cells and neural excitation -- 5.5.1 Stimulus coupling to inner and outer hair cells -- 5.5.2 Activation of auditory nerve fibres -- 5.5.3 Neurotransmitter release -- 5.6 Cochlear non-linearity -- 5.6.1 The non-linear growth of cochlear responses -- 5.6.2 Two-tone suppression -- 5.6.3 Combination tones -- 5.7 Summary -- 5.8 Further reading -- 6 The subcortical nuclei -- 6.1 Considerations in studying the auditory central nervous system -- 6.2 The cochlear nuclei -- 6.2.1 Output pathways -- 6.2.2 Input pathways -- 6.2.3 The ventral binaural sound localization stream: the bushy cells of the anteroventral and posteroventral cochlear nucleus -- 6.2.4 Cells of the posteroventral cochlear nucleus: contributions to both binaural localization and to identification -- 6.2.5 The dorsal cochlear nucleus: sound identification and localization in the vertical plane -- 6.2.6 Excitation and inhibition in the cochlear nucleus -- 6.2.7 Functions of the cochlear nucleus -- 6.3 The superior olivary complex -- 6.3.1 Innervation and overall anatomy -- 6.3.2 The ventral sound localization stream: comparing the intensities of the stimuli at the two ears. 6.3.3 The ventral sound localization stream: comparing the timing of the stimuli at the two ears -- 6.3.4 Summary of role of superior olivary complex in sound localization -- 6.4 Ascending pathways of the brainstem and the nuclei of the lateral lemniscus -- 6.4.1 The ventral nucleus of the lateral lemniscus -- 6.4.2 The dorsal nucleus of the lateral lemniscus -- 6.5 The inferior colliculus -- 6.5.1 General anatomy -- 6.5.2 The central nucleus -- 6.5.3 The external nucleus and dorsal cortex -- 6.6 The medial geniculate body -- 6.6.1 Overall anatomy and inputs -- 6.6.2 The ventral nucleus -- 6.6.3 The medial and dorsal nuclei -- 6.7 Brainstem reflexes -- 6.7.1 Middle ear muscle reflex -- 6.7.2 Acoustic startle -- 6.7.3 Orientation -- 6.7.4 Audiogenic seizures -- 6.8 Summary -- 6.9 Further reading -- 7 The auditory cortex -- 7.1 Organization -- 7.1.1 Anatomy and projections -- 7.1.2 Tonotopic organization -- 7.1.3 Organization along the frequency-band strips -- 7.2 The responses of single neurones -- 7.2.1 Responses in the core -- 7.2.2 Responses in the belt -- 7.3 Cortical processing of sound location -- 7.3.1 Behavioural experiments -- 7.3.2 Electrophysiological responses -- 7.4 Cortical processing and stimulus complexity -- 7.4.1 Behavioural experiments -- 7.4.2 Physiological responses -- 7.5 Overview of functions of the auditory cortex -- 7.6 Summary -- 7.7 Further reading -- 8 The centrifugal pathways -- 8.1 Introduction -- 8.2 The olivocochlear bundle -- 8.2.1 Anatomy -- 8.2.2 Neurotransmitters -- 8.2.3 Physiology and function -- 8.3 Centrifugal pathways to the cochlear nuclei -- 8.3.1 Anatomy -- 8.3.2 Neurotransmitters -- 8.3.3 Physiology and function -- 8.4 Centrifugal pathways in higher centres -- 8.4.1 Anatomy -- 8.4.2 Physiology and function -- 8.5 Summary -- 8.6 Further reading. 9 Physiological correlates of auditory psychophysics and performance -- 9.1 Introduction -- 9.2 The absolute threshold -- 9.3 Frequency resolution -- 9.3.1 A review of the psychophysics of frequency resolution -- 9.3.2 Quantitative relations between psychophysics and physiology in frequency resolution -- 9.3.3 Frequency resolution in the auditory central nervous system -- 9.3.4 Co-modulation masking release: analysis across filters -- 9.4 Frequency discrimination -- 9.4.1 Place and time coding -- 9.4.2 A psychophysical model for pitch perception and its relation to physiology -- 9.5 Intensity and loudness -- 9.5.1 Stimulus coding as a function of intensity -- 9.5.2 Loudness -- 9.6 Sound localization and spatial hearing -- 9.6.1 Introduction -- 9.6.2 Mechanisms of sound localization -- 9.6.3 Spatial release from masking and the binaural masking level difference -- 9.7 Speech -- 9.7.1 What is special about speech? -- 9.7.2 Auditory nerve and brainstem responses -- 9.7.3 Cortical responses to vocalizations in non-human species -- 9.7.4 Responses to speech in the human cortex -- 9.8 Summary -- 9.9 Further reading -- 10 Sensorineural hearing loss -- 10.1 Types of hearing loss -- 10.2 Sensorineural hearing loss of cochlear origin: mechanisms of pathology -- 10.2.1 Ototoxicity -- 10.2.2 Acoustic trauma -- 10.2.3 Genetic causes -- 10.2.4 Ageing -- 10.3 Sensorineural hearing loss of cochlear origin: functional changes -- 10.3.1 Physiological changes -- 10.3.2 Psychophysical correlates -- 10.4 Physiological aspects of the cochlear prosthesis -- 10.4.1 Introduction -- 10.4.2 Physiological background -- 10.4.3 Results -- 10.5 Cellular replacement, protection and gene therapy in the inner ear -- 10.5.1 Introduction -- 10.5.2 Production of new hair cells by transdifferentiation of supporting cells. 10.5.3 Production of new hair cells by mitosis in the mammalian cochlea -- 10.5.4 Gene therapy -- 10.5.5 Stem cell therapy -- 10.5.6 Cell protection -- 10.6 Summary -- 10.7 Further reading -- References -- Index -- Color Plates. |
| Record Nr. | UNINA-9910812960703321 |
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Pickles James O.
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| Bingley, : Emerald, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Morphology of the auditory and vestibular organs in mammals [[electronic resource] ] : with emphasis on marine species / / Galina N. Solntseva
| Morphology of the auditory and vestibular organs in mammals [[electronic resource] ] : with emphasis on marine species / / Galina N. Solntseva |
| Autore | Solnt |
| Pubbl/distr/stampa | Sofie, : Pensoft Publishers |
| Descrizione fisica | 1 online resource (250 p.) |
| Disciplina | 573.89 |
| Collana | Russian academic monographs |
| Soggetto topico |
Ear - Physiology
Auditory pathways - Physiology Vestibular apparatus - Physiology Mammals - Morphology Marine mammals - Morphology |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-283-16062-5
9786613160621 90-04-18819-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Preliminary Material / G. Solntseva -- Chapter 1. Structure Of The Outer Ear Of Some Mammals / G. Solntseva -- Chapter 2. Structure Of The Middle Ear Of Mammals / G. Solntseva -- Chapter 3. Structure Of The Mammalian Inner Ear / G. Solntseva -- Chapter 4. Adaptive Peculiarities Of The Mammalian Peripheral Part Of The Auditory System / G. Solntseva -- Chapter 5. Innervation Of The Organ Of Corti / L. S. Bogoslovskaya and E. E. Anisimov -- Chapter 1. Development Of The Auditory Organ In Terrestrial, Semi-Aquatic And Aquatic Mammals / G. Solntseva -- Chapter 2. Development Of The Vestibular Apparatus In Terrestrial, Semi-Aquatic And Aquatic Mammals / G. Solntseva -- Abbreviations (For Figures 1-27) / G. Solntseva -- Abbreviations (For Figures 28-35) / G. Solntseva -- Figures / G. Solntseva -- Conclusion / G. Solntseva -- Bibliography / G. Solntseva. |
| Record Nr. | UNINA-9910464383803321 |
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Solnt
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| Sofie, : Pensoft Publishers | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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