Departments of1Neurological Surgery.
2Department of Neurology, SUNY Downstate University Health Sciences University, Brooklyn, New York.
J Neurosurg. 2024 Jun 28;141(5):1314-1323. doi: 10.3171/2024.4.JNS221868. Print 2024 Nov 1.
Advancements in microsurgical technique and technology continue to improve outcomes in patients with skull base tumor. The primary cranial nerve eight monitoring systems used in hearing preservation surgery for vestibular schwannomas (VSs) are direct cranial nerve eight monitoring (DCNEM) and auditory brainstem response (ABR), although current guidelines are unable to definitively recommend one over the other due to limited literature on the topic. Thus, further research is needed to determine the utility of DCNEM and ABR. The authors performed a retrospective cohort study and created an interactive model that compares hearing preservation outcomes based on tumor size in patients receiving ABR+DCNEM and ABR-only monitoring.
Twenty-eight patients received ABR+DCNEM and 72 patients received ABR-only monitoring during VS hearing preservation surgery at a single tertiary academic medical center between January 2008 and November 2022. Inclusion criteria consisted of adult patients with a preoperative American Academy of Otolaryngology-Head and Neck Surgery (AAO-HNS) hearing classification of A or B. Tumor size was measured as the maximal medial to lateral length, including the internal auditory canal component.
Overall hearing preservation (word recognition score [WRS] > 0%) was achieved in 31 patients with ABR-only monitoring (43.1%) and in 18 patients with ABR+DCNEM (64.3%). Serviceable hearing preservation (AAO-HNS class A or B) was attained in 19 patients with ABR-only monitoring (26.4%) and in 11 patients with ABR+DCNEM (39.3%). There was no difference in overall hearing preservation between the two groups (p = 0.13). Change in tumor size was not associated with the odds of serviceable hearing preservation for the ABR-only group (p = 0.89); however, for ABR+DCNEM, there was some indication of an interaction between tumor size and the association of ABR+DCNEM versus ABR-only monitoring, with the odds of serviceable hearing preservation at p = 0.089. Furthermore, with ABR+DCNEM, every 0.5-cm increase in tumor size was associated with a decreased odds of serviceable hearing preservation on multivariable analysis (p = 0.05). For both overall and serviceable hearing preservation, a worse preoperative AAO-HNS classification was associated with a decreased odds of preservation (OR 0.43, 95% CI 0.19-0.97, p = 0.042; OR 0.17, 95% CI 0.053-0.55, p = 0.0031, respectively).
The result of this interactive model study proposes that there may be a higher chance of hearing preservation when using ABR+DCNEM rather than ABR alone for smaller tumors, with that relationship reversing as tumor size increases.
随着显微外科技术的进步,颅底肿瘤患者的治疗效果不断改善。在听神经瘤(VS)的听力保护手术中,主要使用的第八颅神经监测系统包括直接第八颅神经监测(DCNEM)和听觉脑干反应(ABR),尽管由于该主题的文献有限,目前的指南无法明确推荐其中任何一种。因此,需要进一步的研究来确定 DCNEM 和 ABR 的效用。作者进行了一项回顾性队列研究,并创建了一个交互式模型,比较了在同一三级学术医疗中心接受 ABR+DCNEM 和 ABR 单独监测的患者根据肿瘤大小的听力保护结果。
2008 年 1 月至 2022 年 11 月期间,在一家单一的三级学术医疗中心,28 名患者接受了 ABR+DCNEM 监测,72 名患者接受了 ABR 单独监测。纳入标准包括术前美国耳鼻喉科学院-头颈外科学会(AAO-HNS)听力分类为 A 或 B 的成年患者。肿瘤大小以最大内侧到外侧长度来测量,包括内听道成分。
接受 ABR 单独监测的患者中,31 名(43.1%)达到了总体听力保护(单词识别分数[WRS]>0%),18 名接受 ABR+DCNEM 监测的患者中 18 名(64.3%)达到了总体听力保护。接受 ABR 单独监测的患者中,19 名(26.4%)达到了可服务的听力保护(AAO-HNS 分级 A 或 B),11 名接受 ABR+DCNEM 监测的患者中 11 名(39.3%)达到了可服务的听力保护。两组间总体听力保护无差异(p=0.13)。肿瘤大小的变化与 ABR 单独监测组的可服务听力保护几率无关(p=0.89);然而,对于 ABR+DCNEM,肿瘤大小与 ABR+DCNEM 与 ABR 单独监测的关联之间存在一定的交互作用,可服务听力保护的几率为 p=0.089。此外,对于 ABR+DCNEM,肿瘤每增大 0.5 厘米,多变量分析中可服务听力保护的几率就会降低(p=0.05)。对于总体和可服务的听力保护,术前 AAO-HNS 分级较差与保护几率降低有关(OR 0.43,95%CI 0.19-0.97,p=0.042;OR 0.17,95%CI 0.053-0.55,p=0.0031)。
这项交互式模型研究的结果表明,对于较小的肿瘤,使用 ABR+DCNEM 而非 ABR 单独进行监测可能会有更高的听力保护几率,而随着肿瘤大小的增加,这种关系会发生逆转。
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