研究电诱发复合动作电位阈值与儿童人工耳蜗植入内耳结构的相关性。
Investigating the association of electrically-evoked compound action potential thresholds with inner-ear dimensions in pediatric cochlear implantation.
机构信息
Department of Otorhinolaryngology - Head and Neck Surgery, Head and Neck Center, Helsinki University Hospital and University of Helsinki, Helsinki, Finland.
Department of Otorhinolaryngology - Head and Neck Surgery, Head and Neck Center, Helsinki University Hospital and University of Helsinki, Helsinki, Finland.
出版信息
Int J Pediatr Otorhinolaryngol. 2022 Jul;158:111160. doi: 10.1016/j.ijporl.2022.111160. Epub 2022 Apr 26.
OBJECTIVES
A narrow bony cochlear nerve canal (BCNC), as well as a hypoplastic and aplastic cochlear nerve (CN) have been associated with increased electrically-evoked compound action potential (eCAP) thresholds in some studies, suggesting poorer neural excitability in cochlear implantation. Also, in large cochleae the extent of activated spiral ganglion neurons with electrical stimulation is less than in smaller ones. However, a detailed description of the relationship between eCAP thresholds for a lateral-wall electrode array and dimensions of the inner-ear structures and internal auditory canal (IAC) is missing.
DESIGN
The study subjects were 52 pediatric patients with congenital severe-to-profound hearing loss (27 females and 25 males; ages 0.7-2.0 years; 1.0 ± 0.3 years, mean ± SD) implanted bilaterally with Cochlear Nucleus CI422, CI522, or CI622 implants with full insertion of the Slim Straight electrode array. Diameters of the cochlea and the BCNC as well as the widths and heights of the IAC and the CN were evaluated from preoperative computed tomography and magnetic resonance images. These anatomical dimensions were compared with each other and with the patients' intraoperative eCAP thresholds.
RESULTS
The eCAP thresholds increased from the apical to basal direction (r = 0.89, p < 0.001). After sorting the cochleae into four size categories, higher eCAP thresholds were found in larger than in smaller cochleae (p < 0.001). With similar categorization, the eCAP thresholds were higher in cochleae with a larger BCNC than in cochleae with a smaller BCNC (p < 0.001). Neither IAC nor CN cross-sectional areas affected the eCAP thresholds. Correlations were found between cochlea and BCNC diameters and between IAC and CN cross-sectional areas (r = 0.39 and r = 0.48, respectively, p < 0.001 for both).
CONCLUSIONS
In the basal part of the electrode array, higher stimulation levels to elicit measurable neural responses (eCAP thresholds) were required than in the apical part. Increased eCAP thresholds associated with a larger cochlear diameter, but contrary to the earlier studies, not with a small size of the BCNC or the CN. Instead, the BCNC diameter correlated significantly with the cochlea diameter.
目的
一些研究表明,狭窄的骨耳蜗神经管(BCNC)以及发育不良和发育不全的耳蜗神经(CN)与电诱发复合动作电位(eCAP)阈值升高有关,提示耳蜗植入后的神经兴奋性较差。此外,在大耳蜗中,电刺激激活的螺旋神经节神经元的程度小于小耳蜗。然而,对于外侧壁电极阵列的 eCAP 阈值与内耳结构和内听道(IAC)的尺寸之间的关系,尚无详细描述。
设计
本研究对象为 52 例先天性重度至极重度听力损失的儿科患者(27 名女性和 25 名男性;年龄 0.7-2.0 岁;1.0 ± 0.3 岁,平均值 ± 标准差),双侧植入 Cochlear Nucleus CI422、CI522 或 CI622 植入物,Slim Straight 电极阵列完全插入。从术前计算机断层扫描和磁共振图像评估耳蜗和 BCNC 的直径以及 IAC 和 CN 的宽度和高度。将这些解剖学尺寸彼此进行比较,并与患者术中的 eCAP 阈值进行比较。
结果
eCAP 阈值从顶部到底部方向增加(r = 0.89,p < 0.001)。将耳蜗分为四个大小类别后,发现较大的耳蜗比较小的耳蜗具有更高的 eCAP 阈值(p < 0.001)。以类似的分类方式,BCNC 较大的耳蜗的 eCAP 阈值高于 BCNC 较小的耳蜗(p < 0.001)。IAC 或 CN 横截面积均不影响 eCAP 阈值。耳蜗和 BCNC 直径之间以及 IAC 和 CN 横截面积之间存在相关性(r = 0.39 和 r = 0.48,两者均为 p < 0.001)。
结论
在电极阵列的底部,与顶部相比,需要更高的刺激水平才能引出可测量的神经反应(eCAP 阈值)。与早期研究相反,eCAP 阈值的升高与耳蜗直径增大有关,但与 BCNC 或 CN 较小无关。相反,BCNC 直径与耳蜗直径显著相关。
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