耳蜗植入会损害豚鼠的耳蜗内微循环,并对抗诱导型一氧化氮合酶的产生。
Cochlear implantation impairs intracochlear microcirculation and counteracts iNOS induction in guinea pigs.
作者信息
Ernst Benjamin Philipp, Heinrich Ulf-Rüdiger, Fries Mathias, Meuser Regina, Rader Tobias, Eckrich Jonas, Stauber Roland H, Strieth Sebastian
机构信息
Department of Otorhinolaryngology, University Medical Center Bonn (UKB), Bonn, Germany.
Department of Otorhinolaryngology, University Medical Center of the Johannes Gutenberg-University Mainz, Mainz, Germany.
出版信息
Front Cell Neurosci. 2023 Jun 28;17:1189980. doi: 10.3389/fncel.2023.1189980. eCollection 2023.
INTRODUCTION
Preservation of residual hearing remains a great challenge during cochlear implantation. Cochlear implant (CI) electrode array insertion induces changes in the microvasculature as well as nitric oxide (NO)-dependent vessel dysfunction which have been identified as possible mediators of residual hearing loss after cochlear implantation.
METHODS
A total of 24 guinea pigs were randomized to receive either a CI ( = 12) or a sham procedure (sham) by performing a cochleostomy without electrode array insertion ( = 12). The hearing threshold was determined using frequency-specific compound action potentials. To gain visual access to the stria vascularis, a microscopic window was created in the osseous cochlear lateral wall. Cochlear blood flow (CBF) and cochlear microvascular permeability (CMP) were evaluated immediately after treatment, as well as after 1 and 2 h, respectively. Finally, cochleae were resected for subsequent immunohistochemical analysis of the iNOS expression.
RESULTS
The sham control group showed no change in mean CBF after 1 h (104.2 ± 0.7%) and 2 h (100.8 ± 3.6%) compared to baseline. In contrast, cochlear implantation resulted in a significant continuous decrease in CBF after 1 h (78.8 ± 8.1%, < 0.001) and 2 h (60.6 ± 11.3%, < 0.001). Additionally, the CI group exhibited a significantly increased CMP (+44.9% compared to baseline, < 0.0001) and a significant increase in median hearing threshold (20.4 vs. 2.5 dB SPL, = 0.0009) compared to sham after 2 h. Intriguingly, the CI group showed significantly lower iNOS-expression levels in the organ of Corti (329.5 vs. 54.33 AU, = 0.0003), stria vascularis (596.7 vs. 48.51 AU, < 0.0001), interdental cells (564.0 vs. 109.1 AU, = 0.0003) and limbus fibrocytes (119.4 vs. 18.69 AU, = 0.0286).
CONCLUSION
Mechanical and NO-dependent microvascular dysfunction seem to play a pivotal role in residual hearing loss after CI electrode array insertion. This may be facilitated by the implantation associated decrease in iNOS expression. Therefore, stabilization of cochlear microcirculation could be a therapeutic strategy to preserve residual hearing.
引言
在人工耳蜗植入过程中,保留残余听力仍然是一项巨大的挑战。人工耳蜗(CI)电极阵列的插入会引起微血管系统的变化以及一氧化氮(NO)依赖性血管功能障碍,这些已被确定为人工耳蜗植入后残余听力损失的可能介质。
方法
总共24只豚鼠被随机分为接受CI植入组(n = 12)或假手术组(假手术),假手术组通过进行不插入电极阵列的耳蜗造孔术(n = 12)。使用频率特异性复合动作电位测定听力阈值。为了能够观察到血管纹,在耳蜗骨外侧壁创建了一个显微镜窗口。分别在治疗后即刻、1小时和2小时评估耳蜗血流量(CBF)和耳蜗微血管通透性(CMP)。最后,切除耳蜗用于随后对诱导型一氧化氮合酶(iNOS)表达的免疫组织化学分析。
结果
假手术对照组在1小时(104.2 ± 0.7%)和2小时(100.8 ± 3.6%)后的平均CBF与基线相比无变化。相比之下,人工耳蜗植入导致1小时(78.8 ± 8.1%,P < 0.001)和2小时(60.6 ± 11.3%,P < 0.001)后CBF持续显著下降。此外,与假手术组相比,CI组在2小时后CMP显著增加(与基线相比增加44.9%,P < 0.0001),且平均听力阈值显著升高(20.4 vs. 2.5 dB SPL,P = 0.0009)。有趣的是,CI组在柯蒂器(329.5 vs. 54.33 AU,P = 0.0003)、血管纹(596.7 vs. 48.51 AU,P < 0.0001)、齿间细胞(564.0 vs. 109.1 AU,P = 0.0003)和边缘纤维细胞(119.4 vs. 18.69 AU,P = 0.0286)中的iNOS表达水平显著降低。
结论
机械性和NO依赖性微血管功能障碍似乎在CI电极阵列插入后的残余听力损失中起关键作用。这可能是由于植入相关的iNOS表达降低所促成。因此,稳定耳蜗微循环可能是保留残余听力的一种治疗策略。
Zotero 插件