成人和儿童患者的听觉脑干植入体阵列位置差异很大，且与感知能力相关。

Auditory Brainstem Implant Array Position Varies Widely Among Adult and Pediatric Patients and Is Associated With Perception.

机构信息

1Department of Otolaryngology - Head and Neck Surgery, Massachusetts Eye and Ear Infirmary, Boston, MA; 2Department of Otology and Laryngology, Harvard Medical School, Boston, MA; 3Department of Radiology, Massachusetts General Hospital, Boston, MA; 4Department of Audiology, Massachusetts Eye and Ear Infirmary, Boston, MA; and 5Department of Radiology, Massachusetts Eye and Ear Infirmary, Boston, MA.

出版信息

Ear Hear. 2017 Nov/Dec;38(6):e343-e351. doi: 10.1097/AUD.0000000000000448.

DOI:10.1097/AUD.0000000000000448

PMID:28700445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5659929/

Abstract

OBJECTIVES

The auditory brainstem implant (ABI) provides sound awareness to patients who are ineligible for cochlear implantation. Auditory performance varies widely among similar ABI cohorts. We hypothesize that differences in electrode array position contribute to this variance. Herein, we classify ABI array position based on postoperative imaging and investigate the relationship between position and perception.

DESIGN

Retrospective review of pediatric and adult ABI users with postoperative computed tomography. To standardize views across subjects, true axial reformatted series of scans were created using the McRae line. Using multiplanar reconstructions, basion and electrode array tip coordinates and array angles from vertical were measured. From a lateral view, array angles (V) were classified into types I to IV, and from posterior view, array angles (T) were classified into types A to D. Array position was further categorized by measuring distance vertical from basion (D1) and lateral from midline (D2). Differences between array classifications were compared with audiometric thresholds, number of active electrodes, and pitch ranking.

RESULTS

Pediatric (n = 4, 2 with revisions) and adult (n = 7) ABI subjects were included in this study. Subjects had a wide variety of ABI array angles, but most were aimed superiorly and posteriorly (type II, n = 7) from lateral view and upright or medially tilted from posterior view (type A, n = 6). Mean pediatric distances were 8 to 42% smaller than adults for D1 and D2. In subjects with perceptual data, electrical thresholds and the number of active electrodes differed among classification types.

CONCLUSIONS

In this first study to classify ABI electrode array orientation, array position varied widely. This variability may explain differences in auditory performance.

摘要

目的

听觉脑干植入物 (ABI) 为不适合植入耳蜗的患者提供声音感知。在相似的 ABI 队列中，听觉表现差异很大。我们假设电极阵列位置的差异导致了这种差异。在此，我们根据术后影像学对 ABI 阵列位置进行分类，并研究位置与感知之间的关系。

设计

对接受过术后计算机断层扫描的儿科和成人 ABI 用户进行回顾性研究。为了在受试者之间标准化视图，使用 McRae 线创建了真实的轴向重建成像系列。使用多平面重建，测量基底和电极阵列尖端坐标以及从垂直方向的阵列角度。从侧视图看，将阵列角度 (V) 分为 I 到 IV 型，从后视图看，将阵列角度 (T) 分为 A 到 D 型。通过测量距基底的垂直距离 (D1) 和距中线的外侧距离 (D2)，进一步对阵列位置进行分类。比较了阵列分类之间的差异与听阈、活动电极数量和音高排序。

结果

本研究纳入了 4 名儿科（2 名有修订）和 7 名成人 ABI 患者。受试者的 ABI 阵列角度多种多样，但大多数从侧视图看是向上和向后（II 型，n = 7），从后视图看是垂直或向内侧倾斜（A 型，n = 6）。与成人相比，儿童的 D1 和 D2 平均距离小 8%至 42%。在有感知数据的受试者中，电阈值和活动电极数量在分类类型之间存在差异。

结论

在这项首次对 ABI 电极阵列方向进行分类的研究中，阵列位置差异很大。这种可变性可能解释了听觉表现的差异。

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