NORMAL SHORT-LATENCY ELECTRO-PHYSIOLOGICAL FILTERED CLICK RESPONSES RECORDED FROM VERTEX AND EXTERNAL AUDITORY MEATUS

We recorded normal electrophysiological responses to third-octave filtered clicks from external auditory meatus (EAM) and vertex electrodes referred to coupled earlobe electrodes (forehead ground). From both vertex and EAM, polarity-sensitive responses predominated at low frequencies and exhibited characteristics of both phase-locked neural responses (frequency-following response or FFR) and cochlear microphonics (CM). The FFR-like response predominated at the vertex site and the CM-like response predominated at EAM. At high frequencies, polarity-insensitive responses closely resembled rectangular-pulse click action potentials and brainstem evoked potentials, with clearly defined N1and V peaks recorded from EAM and vertex, respectively. As frequency was lowered, the N1 and V peak latencies increased, the peaks broadened, and the latency-intensity curves steepened with greater prolongation occurring at lower click intensities. Lowering click frequency also shortened the N1-V interval and caused the plot of N1-V interval versus click intensity to become steeper. Plots of polarity-insensitive response amplitudes and thresholds against frequency revealed a high-frequency bias for both N1 and V, but the V “frequency response” was flatter. A possible explanation of the shortened N1-V interval at low click frequencies based on this flatter V “frequency response” is presented. © 1979, Acoustical Society of America. All rights reserved.