Login
Communauté Vinci
Extérieur
Si votre nom d'utilisateur ne se termine pas par @vinci.be ou @student.vinci.be, utilisez le formulaire ci-dessous pour accéder à votre compte de lecteur.
Titre : | Auditory Brainstem Evoked Potentials : Clinical and Research Applications |
Auteurs : | Ananthanarayan Krishnan |
Type de document : | Livre |
Editeur : | USA : Plural Publishing Inc, 2023 |
ISBN/ISSN/EAN : | 978-1-63550-239-8 |
Format : | 379 p. / 28 cm |
Langues: | Français |
Descripteurs : |
HE Vinci Diagnostic différentiel ; Electrocochléographie ; Évaluation préopératoire ; Neuroanatomie ; Potentiels évoqués auditifs du tronc cérébral (ABR) ; Seuil auditif ; Son complexe |
Résumé : |
Auditory Brainstem Evoked Potentials: Clinical and Research Applications provides a solid foundation of the theoretical principles of auditory evoked potentials. This understanding is important for both the development of optimal clinical test strategies, and interpretation of test results. Developed for graduate-level audiology students, this comprehensive text aims to build a fundamental understanding of auditory evoked brainstem responses (ABR), and their relationship to normal and impaired auditory function, as well as its various audiologic and neurootologic applications.
In addition to covering the classical onset ABR, the book provides a thorough review of sustained brainstem responses elicited by complex sounds, including auditory steady state response (ASSR), envelope following response (EFR), and frequency following response (FFR), and the growing clinical and research applications of these responses. By exploring why certain stimulus manipulations are required to answer specific clinical questions, the author provides the resources needed for students and clinicians to make reasoned decisions about the optimal protocol to use in a given situation. |
Note de contenu : |
Chapter 1. Overview of the Neuroanatomy of Auditory Periphery and Brainstem
I. Auditory Periphery: Cochlear and Auditory Nerve Neuroanatomy II. Neuroanatomy of the Auditory Brainstem III. Efferent Pathways Chapter 2. Neural Activity Underlying Scalp-Recorded Evoked Potentials I. Neuronal Physiology II. Neural Bases of Evoked Potentials III. Auditory Evoked Potentials (AEP): Classification and Types Chapter 3. Stimuli and Data Acquisition Principles I. Stimulus Section II. Analog Signal Conditioning and Preprocessing Section III. Digital Signal Processing Section Chapter 4. Normative Aspects of the Auditory Evoked Responses from the Brainstem I. Auditory Brainstem Responses (ABRs) Chapter 5. Clinical Applications of the Auditory Brainstem Responses: Audiologic Applications for Hearing Screening, and Threshold Estimation I. Hearing Screening II. Frequency-Specific Threshold Estimation Using Auditory Brainstem Responses III. Frequency-Specific Threshold Estimation Using the Brainstem Auditory Steady-State Response (ASS) Chapter 6. Clinical Applications of the Auditory Brainstem Response: Differential Diagnosis I. ABR in Conductive Hearing Loss (CHL) II. ABR in Cochlear Hearing Loss III. ABR in Auditory Nerve and Brainstem Lesions IV. ABR in Auditory Neuropathy (AN) and Cochlear Synaptopathy V. ABR in Upper (Rostral) Brainstem Lesions Chapter 7. Neurotologic Applications: Electrocochleography (ECochG) and Intraoperative Monitoring (IOM) I. Electrocochleography (ECochG) II. ABR Diagnostic Measure for Cochlear Hydrops: Cochlear Hydrops Analysis Masking Procedure (CHAMP) III. The Electrical Compound Action Potential (eCAP) and Its Application in Cochlear Implants: Intracochlear ECochG IV. Electrical ABR (eABR) and Its Application in Cochlear Implant Evaluation V. Application of Auditory Nerve and Brainstem Responses in Intraoperative Monitoring Chapter 8. Brainstem Evoked Responses to Complex Sounds: Characteristics and Clinical Applications I. Envelope Following Response (EFR) II. Response Characteristics of EFRs Elicited by SAM Tones III. Use of EFR in Auditory Threshold Estimation IV. EFRs Elicited by Speech Sounds V. Frequency Following Response (FFR) VI. Frequency Following Responses to Complex Sounds VII. Cochlear Regions Contributing to the FFR VIII. How Is the Population Response Reflected in the FFR Related to Single-Neuron Activity? IX. Neural Generators of the EFR/FFR X. Clinical Applications of the FFR XI. Recording and Analysis of EFR and FFR Chapter 9. Research Applications of the Frequency Following Response I. Pitch: an Important Perceptual Attribute II. Neural Representation of Pitch-Relevant Information of Complex Sounds III. Neural Representation of Linguistic Pitch-Relevant Information in the Brainstem IV. FFR Correlates of Binaural Processing Chapter 10. Auditory Brainstem Responses Laboratory Exercises I. Effects of Stimulus Factors on the ABR Components II. Effects of Recording Parameters on the ABR III. Threshold Estimation Using the ABR IV. Threshold Assessment in Babies (Birth to Six Months) V. Interpretation of ABRs to Determine the Site of Lesion VI. Recording of Auditory Stead-State Response, Envelope Following Response, and Frequency Following VII. Protocol Consideration for Electrocochleography (EcochG) |
Disponible en ligne : | Non |
Exemplaires (1)
Cote | Support | Localisation | Section | Disponibilité |
---|---|---|---|---|
L_425_1039 | Livre | Ixelles | Mezzanine | Prêt autorisé Disponible |