Inferring basilar-membrane motion from tone-burst otoacoustic emissions and psychoacoustic measurements.

Institute of Hearing, Speech & Language, Communication Research Lab, Electrical & Computer Engineering Department, Northeastern University, Boston, Massachusetts 02115, USA. mepstein@ece.neu.edu

The amplitude of otoacoustic emissions, which arise on the basilar membrane, is assumed to be proportional to basilar-membrane motion. It should then be possible to assess basilar-membrane motion on the basis of otoacoustic emissions. The present study provides support for this possibility by comparing basilar-membrane motion inferred from emissions to that inferred from psychoacoustic measures. Three psychoacoustic measurements believed to be associated with basilar-membrane motion were investigated: (1) pulsation threshold; (2) loudness functions derived from temporal integration; and (3) loudness functions derived from loudness matches between pure tones and multitone complexes. Results of the psychoacoustic measurements and of the tone-burst otoacoustic emissions led to very similar estimations of basilar-membrane motion. Accordingly, emissions could serve as an excellent tool--one that is objective, noninvasive, and rapid--for estimating relative basilar-membrane motion.

PMID: 15704419 [PubMed - indexed for MEDLINE]