Auditory brainstem responses (ABRs) using clicks enable global objective estimation of hearing threshold. Recently, it has been suggested that a chirp stimulus may produce a synchronous response from a larger portion of the basilar membrane than a click, and that a chirp will produce a greater amplitude response than a click at the same sensation level. Various workers have modified the stimulus to achieve frequency specificity (e.g. using tone-bursts). The present investigation used band-limited chirp stimuli having the same frequency-delay characteristics as the chirp mentioned above that compensate for frequency-dependent cochlear delays. The intention was to generate highly synchronized neural responses across parts of the nerve fibre a...
Objective: The air conduction click is currently the most widespread stimulus used to estimate the p...
Derived auditory brainstem response (dABR) wave V latencies (V$\sb {\rm d})$ from narrow frequency r...
OBJECTIVE: Binaural interaction can be investigated using auditory evoked potentials. A binaural int...
The chirp-evoked ABR has been termed a more synchronous response, referring to the fact that rising-...
Background In the past, various simulation and measurement paradigms have been introduced and evalua...
Auditory brainstem responses (ABR) evoked by clicks allow a threshold evaluation for the high-freque...
Auditory evoked potentials (AEPs) represent the response of the brain to an auditory stimulus and th...
The aim of the study is the experimental determination of the optimal required masking level for a g...
The chirp-evoked ABR has been regarded as a more synchronous response than the click-evoked ABR, ref...
AbstractIntroductionThe chirp stimulus was developed seeking to counterbalance the delay of the soun...
Abstract Introduction: The chirp stimulus was developed seeking to counterbalance the delay of the ...
Background: Tone-burst auditory brainstem responses (TB ABR) have traditionally been used to estimat...
The aim of this study was to accurately simulate auditory evoked potentials (AEPs) from various clas...
Clinical applications for hearing thresholds obtained with electrophysiological measures are well es...
Click evoked otoacoustic emissions (CEOAEs) are very low level sounds produced by the inner ear in r...
Objective: The air conduction click is currently the most widespread stimulus used to estimate the p...
Derived auditory brainstem response (dABR) wave V latencies (V$\sb {\rm d})$ from narrow frequency r...
OBJECTIVE: Binaural interaction can be investigated using auditory evoked potentials. A binaural int...
The chirp-evoked ABR has been termed a more synchronous response, referring to the fact that rising-...
Background In the past, various simulation and measurement paradigms have been introduced and evalua...
Auditory brainstem responses (ABR) evoked by clicks allow a threshold evaluation for the high-freque...
Auditory evoked potentials (AEPs) represent the response of the brain to an auditory stimulus and th...
The aim of the study is the experimental determination of the optimal required masking level for a g...
The chirp-evoked ABR has been regarded as a more synchronous response than the click-evoked ABR, ref...
AbstractIntroductionThe chirp stimulus was developed seeking to counterbalance the delay of the soun...
Abstract Introduction: The chirp stimulus was developed seeking to counterbalance the delay of the ...
Background: Tone-burst auditory brainstem responses (TB ABR) have traditionally been used to estimat...
The aim of this study was to accurately simulate auditory evoked potentials (AEPs) from various clas...
Clinical applications for hearing thresholds obtained with electrophysiological measures are well es...
Click evoked otoacoustic emissions (CEOAEs) are very low level sounds produced by the inner ear in r...
Objective: The air conduction click is currently the most widespread stimulus used to estimate the p...
Derived auditory brainstem response (dABR) wave V latencies (V$\sb {\rm d})$ from narrow frequency r...
OBJECTIVE: Binaural interaction can be investigated using auditory evoked potentials. A binaural int...