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1 dels of RSV infection of the nasopharynx and Eustachian tube.
2 the glandular structure in proximity to the Eustachian tube.
3 ars dynamically by closing its normally open Eustachian tubes.
4 Malformation and abnormal positioning of the eustachian tube, accompanied by OM, were observed in all
6 site, thus preventing it from ascending the eustachian tube and inducing otitis media in chinchillas
7 middle ear, with studies confirming that the Eustachian tube and middle ear are both anatomically and
8 crystals in the middle ear cavity, enlarged Eustachian tube, and chronic otitis media with effusion
9 monitor infection within the nasopharynges, eustachian tubes, and middle ears of chinchillas after i
13 es were change in the air-bone gap (ABG) and Eustachian Tube Dysfunction Questionnaire (ETDQ-7) score
14 , ear plugging, muffled sounds and pain, and eustachian tube dysfunction that is less responsive to n
15 narrow ear canals and cerumen impactions to eustachian tube dysfunction, middle ear effusion, cochle
19 dies revealed abnormal middle ear cavity and eustachian tube dysmorphology; thus, Eya4 regulation is
20 xin A13 expression at the apical pole of the Eustachian tube epithelium as well as variable intensity
21 he abundant expression of annexin A13 in the Eustachian tube epithelium, along with its role in apica
22 f this study was to prospectively assess the Eustachian tube (ET) cartilage using 3 Tesla (3T) magnet
23 ilation (ETBD) is increasingly used to treat Eustachian tube (ET) dysfunction, but its benefit in pat
24 because the more horizontal position of the Eustachian tube (ET) in infants limits or delays clearan
25 luated on the cell surface in the chinchilla eustachian tube (ET) lumen of a cohort challenged intran
29 d the presence of a ciliated region near the Eustachian tube orifice at the ventral region of the mid
31 mice results in abnormal structuring of the eustachian tube, thus predisposing these animals to OME