Hans-Georg Fischer1, Andreas Koch2, Wataru Kähler2, Michael Pohl3, Hans-Wilhelm Pau4, Thorsten Zehlicke5. 1. Department of Otorhinolaryngology (ENT), Head and Neck Surgery Military Hospital Lesserstrasse 180 22049 Hamburg, Germany, Phone: +49-(0)176-2197-0320, E-mail: hansgeorgfischer@live.de. 2. Naval Institute of Maritime Medicine, Kronshagen, Schleswig-Holstein, Germany. 3. Department of Otorhinolaryngology (ENT), Head and Neck Surgery, Military Hospital, Hamburg, Germany. 4. Department of Otorhinolaryngology (ENT), Head and Neck Surgery, University of Rostock, Rostock, Germany. 5. Department of Otorhinolaryngology (ENT), Head and Neck Surgery, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
Abstract
OBJECTIVE: The purpose of this study was to further the understanding of the opening of the Eustachian tube in relation to changes in barometric pressure. DESIGN: An ear canal microphone was used to measure the specific sounds related to tube opening and possible eardrum movements. Five subjects with normal tube function were examined in a hyperbaric chamber (up to 304 kPa). All active and passive equalization events were recorded and correlated with the subjectively perceived pressure regulation in the measured ear. RESULTS: The signals recorded were clear and reproducible. The acoustic analysis distinguished between the different kinds of equalization. Subjective impressions were confirmed by the recorded frequency of acoustic phenomena (clicks). During compression, the sequence of active equalization manoeuvres was in a more regular and steady pattern than during decompression, when the click sounds varied. CONCLUSION: The study established a simple technical method for analyzing the function of the Eustachian tube and provided new information about barometric pressure regulation of the middle ear.
OBJECTIVE: The purpose of this study was to further the understanding of the opening of the Eustachian tube in relation to changes in barometric pressure. DESIGN: An ear canal microphone was used to measure the specific sounds related to tube opening and possible eardrum movements. Five subjects with normal tube function were examined in a hyperbaric chamber (up to 304 kPa). All active and passive equalization events were recorded and correlated with the subjectively perceived pressure regulation in the measured ear. RESULTS: The signals recorded were clear and reproducible. The acoustic analysis distinguished between the different kinds of equalization. Subjective impressions were confirmed by the recorded frequency of acoustic phenomena (clicks). During compression, the sequence of active equalization manoeuvres was in a more regular and steady pattern than during decompression, when the click sounds varied. CONCLUSION: The study established a simple technical method for analyzing the function of the Eustachian tube and provided new information about barometric pressure regulation of the middle ear.