Effect of Lidocaine on Quinine-Induced Tinnitus in Guinea Pigs: A Focus on the Auditory Cortex.

IF 2 3区医学 Q3 CLINICAL NEUROLOGY

Otology & Neurotology Pub Date : 2025-10-01 Epub Date: 2025-08-01 DOI:10.1097/MAO.0000000000004616

Mutsumi Kenmochi, Kentaro Ochi, Hirotsugu Kinoshita, Shigeru Kasugai, Manabu Nakamura, Manabu Komori

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引用次数: 0

Abstract

Hypothesis: This study investigated whether intravenous lidocaine reverses auditory cortex changes induced by systemic quinine administration.

Background: Quinine, like salicylate, is known to induce tinnitus. Previous studies have shown that salicylate-induced changes in the auditory cortex can be reversed by lidocaine, a compound known to suppress tinnitus. If lidocaine also reverses quinine-induced changes, it would further support the association between these neural changes and the presence of tinnitus.

Methods: Healthy male albino Hartley guinea pigs received systemic quinine, followed by intravenous lidocaine. Extracellular recordings were obtained from the primary auditory cortex and dorsocaudal areas across four sessions: baseline (control), two post-quinine sessions, and a post-lidocaine session.

Results: A total of 156 single units in the primary auditory cortex and 159 single units in the dorsocaudal areas were recorded from 10 guinea pigs. Quinine administration significantly elevated threshold in both primary auditory cortex (first post-quinine session: mean, 3.2 dB; second post-quinine session: mean, 16.2 dB) and dorsocaudal areas (first post-quinine session: mean, 3.9 dB; second post-quinine session: mean, 11.0 dB), but lidocaine did not induce further threshold changes. However, quinine-induced alterations in Q10dB value and spontaneous firing activity were reversed by lidocaine in both the primary auditory cortex and dorsocaudal areas.

Conclusion: The reversal of quinine-induced changes in Q10dB value and spontaneous firing activity by lidocaine suggests that these neural alterations are related to tinnitus. Similar results with salicylate further support the association between cortical changes and tinnitus, pointing to a possible shared central mechanism.

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利多卡因对豚鼠奎宁性耳鸣的影响：以听觉皮层为中心。

假设：本研究探讨静脉注射利多卡因是否能逆转全身给药奎宁引起的听觉皮层变化。背景：众所周知，奎宁和水杨酸盐一样会引起耳鸣。先前的研究表明，水杨酸引起的听觉皮层变化可以通过利多卡因逆转，利多卡因是一种已知的抑制耳鸣的化合物。如果利多卡因也能逆转奎宁引起的变化，它将进一步支持这些神经变化与耳鸣存在之间的联系。方法：健康雄性白化哈特利豚鼠全身注射奎宁，然后静脉注射利多卡因。细胞外记录来自初级听觉皮层和背尾区，分为四个阶段：基线（对照）、两个奎宁治疗后阶段和一个利多卡因治疗后阶段。结果：10只豚鼠在初级听觉皮层共记录到156个单个单元，在背尾区共记录到159个单个单元。奎宁治疗显著提高了初级听觉皮层的阈值(第一次奎宁治疗后：平均，3.2 dB；第二次奎宁治疗后：平均，16.2 dB)和尾侧背区(第一次奎宁治疗后：平均，3.9 dB；奎宁后第二次：平均11.0 dB)，但利多卡因未引起进一步的阈值变化。然而，奎宁诱导的Q10dB值和自发放电活动的改变被利多卡因在初级听觉皮层和背尾区逆转。结论：利多卡因逆转奎宁诱导的Q10dB值和自发放电活动的变化，提示这些神经改变与耳鸣有关。水杨酸盐的类似结果进一步支持了皮层变化和耳鸣之间的联系，指出可能存在共同的中枢机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Otology & Neurotology 医学-耳鼻喉科学

CiteScore

3.80

自引率

14.30%

发文量

509

审稿时长

3-6 weeks

期刊介绍： Otology & Neurotology publishes original articles relating to both clinical and basic science aspects of otology, neurotology, and cranial base surgery. As the foremost journal in its field, it has become the favored place for publishing the best of new science relating to the human ear and its diseases. The broadly international character of its contributing authors, editorial board, and readership provides the Journal its decidedly global perspective.