PHASE DELAY MEASUREMENTS OF DISTORTION-PRODUCT OTOACOUSTIC EMISSIONS AT 2F1-F2 AND 2F2-F1 IN HUMAN EARS

The present study used distortion product otoacoustic emission (DPOAE) latency as a tool to provide information about the generation sites o f 2f1 - f2 and 2f2 - f1 DPOAEs in humans. The DPOAE 2f1 - f2 is suppos ed to be generated near the f2 site, but little is known about the 2f2 - f1 DPOAE processing in humans. The present work sought to test seve ral hypotheses as to the possible generation of 2f1 - f2 at the site a nd of 2f2 - f1 site as well as their backward reflection site, by comp aring latencies of the two DPOAEs, under appropriate frequency manipul ation. The effect of stimulus level was also studied. The latency valu es were calculated as the phase-lag related to the frequency shift? us ing the ILO92 software. Amplitudes were lower and latencies shorter fo r 2f2 - f1 than for 2f1 - f2. As expected, 2f1 - f2 and 2f2 - f1 DPOAE latency decreased with increasing stimulus level and frequency. At 70 dB SPL, latencies of DPOAEs with primaries f1 and f2 or f1 and f*2, chosen so as to obtain 2f1 - f*2 = 2f2 - f1, were identical, whereas at 55 dB SPL the similarities were less obvious, suggesting two differ ent generation processes. The present study suggests that the comparis on of several DPOAE components may produce useful information about th eir processing within the cochlea. (C) 1996 Acoustical Society of Amer ica.