Department of Otorhinolaryngology, Ghent University Hospital, Ghent, Belgium.
Laryngoscope. 2013 Aug;123(8):1988-95. doi: 10.1002/lary.23963. Epub 2013 Feb 12.
OBJECTIVES/HYPOTHESIS: Osteogenesis imperfecta (OI) is an autosomal-dominant connective-tissue disorder, predominantly characterized by bone fragility. Conductive hearing loss develops in half of the OI patients and often progresses to mixed loss. Findings of computed tomography (CT) and magnetic resonance (MR) imaging of the temporal bone in the largest series of OI patients to date are presented and correlated with the audiograms.
Retrospective case series.
CT images and audiograms of 17 hearing-impaired OI patients, aged 9 to 67 years, were analyzed retrospectively. In four patients, MR imaging was performed as well. Imaging abnormalities were correlated with type and severity of hearing loss deduced from the audiograms.
CT revealed fenestral hypodense foci in the fissula ante fenestram (25 of 33 ears), oval window (23 of 33 ears), and round window (20 of 33 ears). Retrofenestral hypodensities were observed, affecting the cochlear turns (16 of 33 ears), facial nerve canal (10 of 33 ears), or semicircular canals (6 of 33 ears), or appearing like the fourth turn of the cochlea (11 of 33 ears). The site of hypodensities corresponded to the type of hearing loss in 72.2% of the OI ears. The air-bone gap and bone-conduction thresholds showed significant positive associations with the number of affected fenestral (P < .05) and retrofenestral structures (P < .01), respectively. Gadolinium-enhanced MR images demonstrated active lesions in three patients with mixed hearing loss or deafness.
The site of hypodensities on temporal bone CT images in OI corresponds to presence and type of hearing loss determined by audiometry. The more severe the hearing loss, the more affected temporal bone structures in OI.
目的/假设:成骨不全症(OI)是一种常染色体显性结缔组织疾病,主要表现为骨骼脆弱。一半的 OI 患者会出现传导性听力损失,且常进展为混合性听力损失。本文呈现了迄今为止最大系列 OI 患者的颞骨 CT 和磁共振(MR)成像的结果,并将其与听力图进行了相关性分析。
回顾性病例系列研究。
回顾性分析了 17 例听力受损的 OI 患者(年龄 9 至 67 岁)的 CT 图像和听力图。其中 4 例患者还进行了 MR 成像。将影像学异常与听力图推断出的听力损失类型和严重程度进行相关性分析。
CT 显示在前庭窗裂(25/33 耳)、卵圆窗(23/33 耳)和圆窗(20/33 耳)出现窗裂低密度灶。后庭窗出现低密度灶,影响耳蜗转(16/33 耳)、面神经管(10/33 耳)或半规管(6/33 耳),或类似耳蜗第四转(11/33 耳)。72.2%的 OI 耳的听力损失类型与低密度灶的部位相对应。气骨导差和骨导阈值与受影响的窗裂(P <.05)和后庭窗结构(P <.01)数量呈显著正相关。增强磁共振成像显示 3 例混合性听力损失或耳聋患者存在活动性病变。
OI 患者颞骨 CT 图像上的低密度灶部位与听力计确定的听力损失存在和类型相对应。听力损失越严重,OI 患者的颞骨结构受影响越广泛。
