与人工耳蜗手术有关的颞骨解剖和病理方面。

Acta radiologica. Supplementum Pub Date : 2003-07-01
Christina Stjernholm
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引用次数: 0

摘要

人工耳蜗植入术是对严重感音神经性听力损失/耳聋患者的一种治疗方法,这些患者无法获得普通助听器的帮助。人工耳蜗通过手术放置在耳朵附近的皮肤下,一个非常薄的电极阵列被引入内耳的耳蜗,在那里它刺激剩余的神经纤维(1,2)。手术很复杂;它是在显微镜的帮助下进行的,需要在非常靠近重要血管和重要神经的地方钻孔。该方法于1984年由Göran Bredberg教授在瑞典引入,当时在斯德哥尔摩Söder医院。颞骨高分辨率计算机断层扫描(CT)是人工耳蜗植入前术前评估的一部分。这是一种可视化中耳和内耳骨骼结构的方法,用于诊断病理和描述解剖结构。在斯德哥尔摩,这些检查通常在斯德哥尔摩Söder医院放射科进行。来自瑞典其他地区和国外的人工耳蜗候选人的考试也会送到那里进行特别审查。第一项工作是关于颞骨CT和人工耳蜗植入手术在儿童CHARGE关联。这是一种罕见的情况,有多种先天性异常,有时是致命的。患有CHARGE的儿童有不同的残疾组合,其中视力和听力障碍,以及平衡问题和面瘫可能导致发育迟缓。很少有颞骨影像学改变的报道,也没有耳蜗植入手术的报道。这项工作包括对两名儿童的术前CT和手术结果的报告,以及植入后的结果。对CHARGE的最新诊断标准和国际文献中发现的颞骨改变进行了综述。结论是,CHARGE的某些颞骨变化组合,如果不是特异性的,至少在其他材料中是极其罕见的。CT可以显示这些变化,并可作为诊断工具。这一点很重要,因为一些相关的残疾从一开始就不那么明显。早期治疗对孩子的成长至关重要。这项工作还表明,人工耳蜗植入可能有助于这些经常非常孤立的儿童进行交流。第二项工作是对内耳的一个结构——耳蜗神经的骨管进行放射解剖学研究。它包括对117个颞骨硅胶模型(来自乌普萨拉颞骨实验室的独特模型集)和50个临床ct研究(100只耳朵)的管的尺寸测量。目的是显示正常的变异,为先天性颞骨畸形的CT诊断提供参考。根据我们的结果,我们建议如果CT测量的耳蜗管小于1.4 mm,则应考虑耳蜗神经异常的可能性。这是有趣的,因为耳蜗神经发育不全是人工耳蜗植入的禁忌症。如果耳道宽度大于3.0 mm,则可能同时存在其他异常,当行耳蜗造口术或镫骨切除术时,有脑脊液涌出的风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aspects of temporal bone anatomy and pathology in conjunction with cochlear implant surgery.

Cochlear implantation is a treatment for patients with severe sensorineural hearing loss/deafness, who get no help from ordinary hearing aids. The cochlear implant is surgically placed under the skin near the ear and a very thin electrode array is introduced into the cochlea of the inner ear, where it stimulates the remaining nerve fibers (1,2). The operation is complicated; it is performed with the aid of a microscope, and involves drilling very close to vital vessels and important nerves. The method was introduced in Sweden in 1984 by Professor Göran Bredberg, then at Stockholm Söder Hospital. High resolution computed tomography (CT) of the temporal bone is a part of the preoperative evaluation preceding cochlear implantation. It is a method for visualizing the bony structures of the middle and inner ear - to diagnose pathology and to describe the anatomy. In Stockholm, these examinations have usually been performed at the Radiology Department of Stockholm Söder Hospital. Examinations of cochlear implant candidates from other parts of Sweden and from abroad are also sent there for special reviewing. The first work concerns CT of the temporal bone and cochlear implant surgery in children with CHARGE association. This is a rare condition with multiple congenital abnormalities, sometimes lethal. Children with CHARGE have different combinations of disabilities, of which impairments of vision and hearing, as well as balance problems and facial palsy can lead to developmental delay. There have been few reports of radiological temporal bone changes and none of cochlear implant surgery for this group. The work includes a report of the findings on preoperative CT and at surgery, as well as post-implant results in two children. A review of the latest diagnostic criteria of CHARGE and the temporal bone changes found in international literature is also included. The conclusion was that certain combinations of temporal bone changes in CHARGE are, if not specific, at least extremely rare in other materials. CT can visualize these changes and be used as a diagnostic tool. This is important, since some of the associated disabilities are not so obvious from the start. Early treatment is vital for the child's development. This work also shows that cochlear implantation may help some of these often very isolated children to communicate. The second work is a radioanatomic study of one of the structures of the inner ear - the bony canal for the cochlear nerve. It involves measurements of the dimensions of the canal on 117 silicone rubber casts of the temporal bone (from a unique collection of casts at Uppsala temporal bone laboratory) and on 50 clinical CT-studies (100 ears). The purpose was to show the normal variation, which is of use in the appraisal of congenital temporal bone malformations on CT. Based on our results we propose that if the canal is less than 1.4 mm, as measured on CT, the possibility of cochlear nerve abnormality should be considered. This is of interest since aplasia of the cochlear nerve is a contraindication to cochlear implantation. If the canal is wider than 3.0 mm, then other anomalies may coexist, with the risk of CSF gusher when a cochleostomy or stapedectomy is performed.

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