From the Neuroradiology Unit (G.C., S.C., L.C., F.M.L.R., C.C., D.S., E.S., F.T.).
From the Neuroradiology Unit (G.C., S.C., L.C., F.M.L.R., C.C., D.S., E.S., F.T.)
AJNR Am J Neuroradiol. 2021 Jan;42(2):377-381. doi: 10.3174/ajnr.A6876. Epub 2021 Jan 28.
Imaging is fundamental to assessing the acoustic pathway in infants with congenital deafness. We describe our depiction of the membranous labyrinth in infants using the heavily T2-weighted 3D FLAIR sequence without a contrast agent.
We retrospectively reviewed 10 infants (20 ears) (median term equivalent age: 2 weeks; IQR: 1-5 weeks) who had undergone brain MR imaging including a noncontrast heavily T2-weighted 3D FLAIR scan of the temporal bone. For each ear, 3 observers analyzed, in consensus, the saccule, the utricle, and the 3 ampullae, assessing the visibility (score 0, not appreciable; score 1, visible without well-defined boundaries; score 2, visible with well-defined boundaries) and morphology ("expected" or "unexpected" compared with adults). The heavily T2-weighted 3D FLAIR sequence was scored for overall quality (score 0, inadequate; score 1, adequate but with the presence of image degradation; score 2, adequate).
Six (60%) MR examinations were considered adequate (score 1 or 2). The saccule was visible in 10 ears (83.3%) with an expected morphology in 9 ears (90%). In 1 ear of an infant with congenital deafness, the saccule showed an unexpected morphology. The utricle was visible as expected in 12 ears (100%). The lateral ampulla was visible in 5 ears (41.6%), the superior ampulla was visible in 6 ears (50.0%), and the posterior ampulla was visible in 6 ears (50.0%), always with expected morphology (100%).
MR imaging can depict the membranous labyrinth in infants using heavily T2-weighted 3D FLAIR without an injected contrast agent, but the sequence acquisition time reduces its feasibility in infants undergoing MR studies during natural sleep.
影像学在评估先天性耳聋婴儿的声通道中至关重要。我们描述了使用无对比剂的重度 T2 加权 3D FLAIR 序列显示婴儿膜迷路的情况。
我们回顾性分析了 10 例(20 耳)婴儿(中位胎龄相当年龄:2 周;IQR:1-5 周)的脑磁共振成像资料,包括非对比增强重度 T2 加权 3D FLAIR 扫描颞骨。对于每只耳朵,3 位观察者在共识的基础上分析球囊、椭圆囊和 3 个壶腹,评估其可见性(评分 0,不可见;评分 1,可见但边界不清;评分 2,可见且边界清晰)和形态(与成人相比为“预期”或“意外”)。重度 T2 加权 3D FLAIR 序列的总体质量评分(评分 0,不足;评分 1,充分但存在图像退化;评分 2,充分)。
6 例(60%)MR 检查被认为是充分的(评分 1 或 2)。10 只耳朵(83.3%)的球囊可见,形态与预期一致的有 9 只耳朵(90%)。在 1 例先天性耳聋婴儿的耳朵中,球囊显示出意外的形态。12 只耳朵(100%)的椭圆囊可见,形态与预期一致。5 只耳朵(41.6%)可见外半规管,6 只耳朵(50.0%)可见上半规管,6 只耳朵(50.0%)可见后半规管,形态均与预期一致(100%)。
磁共振成像可以在不使用注射对比剂的情况下,使用重度 T2 加权 3D FLAIR 显示婴儿的膜迷路,但由于采集时间长,在自然睡眠中进行磁共振检查的婴儿中可行性降低。