Joaquin T Valderrama1, Angel de la Torre2, Isaac Alvarez3, Jose Carlos Segura4, A Roger D Thornton5, Manuel Sainz6, Jose Luis Vargas7. 1. Department of Signal Theory, Telematics and Communications, CITIC-UGR, University of Granada, C/ Periodista Daniel Saucedo Aranda s/n, 18071 Granada, Spain; MRC Institute of Hearing Research, Southampton Outstation, Royal South Hants Hospital, Brintons Terrace, Mailpoint OAU, Southampton, Hampshire SO14 OYG, UK. Electronic address: jvalderrama@ugr.es. 2. Department of Signal Theory, Telematics and Communications, CITIC-UGR, University of Granada, C/ Periodista Daniel Saucedo Aranda s/n, 18071 Granada, Spain. Electronic address: atv@ugr.es. 3. Department of Signal Theory, Telematics and Communications, CITIC-UGR, University of Granada, C/ Periodista Daniel Saucedo Aranda s/n, 18071 Granada, Spain. Electronic address: isamaru@ugr.es. 4. Department of Signal Theory, Telematics and Communications, CITIC-UGR, University of Granada, C/ Periodista Daniel Saucedo Aranda s/n, 18071 Granada, Spain. Electronic address: segura@ugr.es. 5. MRC Institute of Hearing Research, Southampton Outstation, Royal South Hants Hospital, Brintons Terrace, Mailpoint OAU, Southampton, Hampshire SO14 OYG, UK. Electronic address: ardt@soton.ac.uk. 6. ENT Service, San Cecilio University Hospital, Av. Dr. Oloriz 16, 18002 Granada, Spain; Department of Surgery and its Specialties, University of Granada, Av. De Madrid 11, 18012 Granada, Spain. 7. ENT Service, San Cecilio University Hospital, Av. Dr. Oloriz 16, 18002 Granada, Spain.
Abstract
OBJECTIVE: This paper analyzes the fast and slow mechanisms of adaptation through a study of latencies and amplitudes on ABR recorded at high stimulation rates using the randomized stimulation and averaging (RSA) technique. METHODS: The RSA technique allows a separate processing of auditory responses, and is used, in this study, to categorize responses according to the interstimulus interval (ISI) of their preceding stimulus. The fast and slow mechanisms of adaptation are analyzed by the separated responses methodology, whose underlying principles and mathematical basis are described in detail. RESULTS: The morphology of the ABR is influenced by both fast and slow mechanisms of adaptation. These results are consistent with previous animal studies based on spike rate. CONCLUSIONS: Both fast and slow mechanisms of adaptation are present in all subjects. In addition, the distribution of the jitter and the sequencing of the stimuli may be critical parameters when obtaining reliable ABRs. SIGNIFICANCE: The separated responses methodology enables for the first time the analysis of the fast and slow mechanisms of adaptation in ABR obtained at stimulation rates greater than 100 Hz. The non-invasive nature of this methodology is appropriate for its use in humans.
OBJECTIVE: This paper analyzes the fast and slow mechanisms of adaptation through a study of latencies and amplitudes on ABR recorded at high stimulation rates using the randomized stimulation and averaging (RSA) technique. METHODS: The RSA technique allows a separate processing of auditory responses, and is used, in this study, to categorize responses according to the interstimulus interval (ISI) of their preceding stimulus. The fast and slow mechanisms of adaptation are analyzed by the separated responses methodology, whose underlying principles and mathematical basis are described in detail. RESULTS: The morphology of the ABR is influenced by both fast and slow mechanisms of adaptation. These results are consistent with previous animal studies based on spike rate. CONCLUSIONS: Both fast and slow mechanisms of adaptation are present in all subjects. In addition, the distribution of the jitter and the sequencing of the stimuli may be critical parameters when obtaining reliable ABRs. SIGNIFICANCE: The separated responses methodology enables for the first time the analysis of the fast and slow mechanisms of adaptation in ABR obtained at stimulation rates greater than 100 Hz. The non-invasive nature of this methodology is appropriate for its use in humans.