Abstract
Conclusions: The middle ear (ME) surface area/volume ratio (SA/V) is greater than that of the tympanum. The rate of ME pressure decrease is proportional to the ME SA/V. The mastoid air-cell system (MACS) will not function as an ME gas reserve unless the blood perfusion/surface area is much greater for the tympanum than the MACS and decreases as MACS volume increases. Objective: To measure the MACS and tympanum surface areas and volumes and ascertain whether the MACS could function as an ME gas reserve. Methods: Twenty adult subjects with a wide range of MACS volumes underwent CT of their MEs. The left and right surface areas and volumes of the tympanum and MACS were reconstructed and entered into a simple perfusion-limited model of transmucosal gas exchange. In this model the MACS would be a gas reserve if ME SA/V was less than the tympanum SA/V or equivalently, if their ratio was less than a critical value of 1. Results: Both MACS and tympanum SA were linearly related to their volumes. MACS SA/V and the ME SA/V were significantly greater than those for the tympanum. Inputting the measured values into the model yielded a critical value of 1.4, which was significantly greater than 1.
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Acknowledgments
This work was supported in part by a grant from the National Institutes of Health (P50 DC007667). The investigators thank the personnel of the Radiology Department at the UPMC Presbyterian Hospital of Pittsburgh for their assistance in performing the X-ray and CT procedures and Ms Julianne Banks for her assistance with subject recruitment and scheduling.
Declaration of interest: The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.