计算机断层扫描和MRI在儿童感音神经性听力损失中的作用

Ahmad Mohamed Alkady, Saad Rezk Al-Wahed El-Gebaly, T. Mansour, Mohamed Elmoursy Kasem
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引用次数: 0

摘要

背景与目的随着视觉科学的发展,有许多先天性和后天性的内耳异常没有影像学征象。然而,可视化是评估先天性和获得性感觉神经性听力损失(SNHL)触发因素的重要工具。目的是评估多探测器计算机断层扫描(MDCT)和MRI在SNHL患儿内耳异常检测中的价值。患者和方法本研究纳入100例10岁及以下SNHL患儿。耳蜗、前庭、三条半规管、内淋巴管和内声道。此外,三维驱动MRI可以很好地显示内声道内的所有四个神经。结果25例患者共检出46例畸形,其中MDCT检出42例畸形,占全部异常的91%,MRI检出44例畸形,占全部异常的96%。MDCT的准确率、灵敏度和特异性分别为96.7、91.3和100%,MRI的准确率、灵敏度和特异性分别为98.3、95.7和100%。结论影像学检查在儿童SNHL的诊治中起着重要作用。因此,明确听力损失的病因是十分必要的。高分辨率CT和MRI模式是检测内耳各种病理的两种主要放射学调查。使用MRI和CT的“双模成像”对许多患者来说是有意义的,因为双扫描方法可以检测到与听力损失相关的异常,否则单独使用任何一种方式都无法发现这些异常。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of computed tomography and MRI in children with sensorineural hearing loss
Background and aim Given the tremendous developments in visualization science, there are many congenital and acquired internal ear anomalies that have no radiological signs. However, visualization is an important instrument for the assessment of congenital and acquired sensory neural hearing loss (SNHL) triggers. The aim is to assess the value of multidetector computed tomography (MDCT) and MRI in internal ear abnormality detection in children with SNHL. Patients and methods This study included 100 children of 10 years or younger with SNHL. The cochlea, the vestibule, the three semicircular canals, the endolymphatic duct, and the internal acoustic canal. In addition, three-dimensional DRIVE MRI gives good demonstration of all four nerves within the internal acoustic canal. Results A total of 46 malformations were detected in only 25 patients with 42 malformations that were detected in MDCT examination presenting 91% of all abnormalities, while in MRI examination, 44 malformations are detected presenting 96% of all abnormalities. MDCT showed accuracy, sensitivity, and specificity 96.7, 91.3, and 100%, respectively, while for MRI, it showed accuracy, sensitivity, and specificity 98.3, 95.7, and 100%, respectively. Conclusion Imaging plays an important role in the workup of children with SNHL. Therefore, it is imperative to define the etiology of hearing loss. High-resolution CT and MRI modalities are the two principal radiological investigations to detect various pathologies in the inner ear. ‘Dual-modality imaging’ using both MRI and CT, made sense for many patients because the dual-scan approaches detect abnormalities related to hearing loss that would not otherwise be found using either modality alone.
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