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Sequelae of Secretory Otitis Media: Changes in Middle Ear Biomechanics

Gaihede M, Lildholdt T, Lunding J. Sequelae of secretory otitis media: changes in middle ear biomechanics. Acta Otolaryngol (Stockh) 1997; 117: 382-389. A new method previously introduced investigating the pressure-volume relationship of the middle ear system describes dynamic mechanical properties...

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Published in:Acta oto-laryngologica 1997, Vol.117 (3), p.382-389
Main Authors: Gaihede, Michael, Lildholdt, Torben, Lunding, Johnny
Format: Article
Language:English
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Summary:Gaihede M, Lildholdt T, Lunding J. Sequelae of secretory otitis media: changes in middle ear biomechanics. Acta Otolaryngol (Stockh) 1997; 117: 382-389. A new method previously introduced investigating the pressure-volume relationship of the middle ear system describes dynamic mechanical properties of the system: the variables measured are hysteresis, compliance, and Pec0 expressing the zero position of the tympanic membrane. The present study investigates the mechanical properties in 69 adolescents treated with ventilation tubes during childhood due to secretory otitis media. The tympanic membranes displayed various degrees of atrophy, sclerosis, and retraction of the pars flaccida. Atrophy was quantitatively related to decreasing hysteresis and increasing compliance, while myringosclerosis showed opposite effects. Pec0 was significantly lower for the group of former secretory otitis media than for normals (p < 0.001). This reflects a retraction pattern of the tympanic membrane, which may be explained by a low opening pressure of the eustachian tube or previous pressure load of the drum. Signs of retraction were not found by tympanometry. Treatment with ventilation tubes was associated with a dramatic increase of tympanic membrane pathology (66%) compared to untreated ears (12%), as assessed by otomi-croscopy (p < 0.001). However, these changes specific to treatment were not found in the corresponding mechanical variables of the middle ear system, as the effects of combined atrophy and myringosclerosis tend to counterbalance.
ISSN:0001-6489
1651-2251
DOI:10.3109/00016489709113410