Voxel-Based Morphometry and Subfield Volumetry Analysis Reveal Limbic System Involvement in Tinnitus.

IF 2.3 4区医学 Q3 CLINICAL NEUROLOGY

Journal of Neuroimaging Pub Date : 2025-01-01 DOI:10.1111/jon.70008

Sekwang Lee, Sung-Bom Pyun, Youngbo Sim, Sangwon Um, Woo-Suk Tae, Eui-Cheol Nam

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引用次数: 0

Abstract

Background and purpose: Tinnitus is a condition in which individuals perceive sounds, such as ringing or buzzing, without any external source. Although the exact cause is not fully understood, recent studies have indicated the involvement of nonauditory brain structures, including the limbic system. We aimed to compare the volumes of specific brain structures between patients with tinnitus and controls.

Methods: Voxel-based morphometry and subfield volumetry were applied to analyze the brain structures of 53 patients with tinnitus and 52 age- and sex-matched controls. The volumes of the amygdala, hippocampus, and thalamus were measured and compared between the groups.

Results: Patients with tinnitus had larger volumes in the whole amygdala, basal nucleus, right lateral nucleus, and left paralaminar nucleus compared with controls. In addition, the subiculum head, left fimbria, and left presubiculum head in the hippocampus were larger in patients with tinnitus. No differences were found in the total thalamic volume or thalamic subnuclei between groups. The gray matter volumes in the thalamus, amygdala, and hippocampus were significantly high in the tinnitus group. The cortical thicknesses of both of the marginal branches of the cingulate sulcus, the left superior parietal lobule, and the left subparietal sulcus were also high in the tinnitus group.

Conclusions: These findings indicate the involvement of the limbic system in tinnitus, and enhance our understanding of the condition. The subfield volumetry technique used in this study may aid in identifying the structural differences associated with specific neurological and psychiatric conditions.

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基于体素的形态测量和子场体积分析揭示耳鸣的边缘系统受累。

背景和目的：耳鸣是一种个体在没有任何外部来源的情况下感知声音，如铃声或嗡嗡声的情况。虽然确切的原因尚不完全清楚，但最近的研究表明，包括边缘系统在内的非听觉大脑结构也参与其中。我们的目的是比较耳鸣患者和对照组之间特定脑结构的体积。方法：应用体素形态学和亚场体积法对53例耳鸣患者和52例年龄和性别匹配的对照组进行脑结构分析。测量并比较各组之间杏仁核、海马和丘脑的体积。结果：与对照组相比，耳鸣患者的整个杏仁核、基底核、右侧外侧核和左侧线旁核的体积更大。此外，耳鸣患者海马的耻骨下头、左侧膜和左侧耻骨下前头较大。各组间丘脑总体积和丘脑亚核均无差异。耳鸣组丘脑、杏仁核、海马灰质体积显著增高。耳鸣组扣带沟两侧边缘分支、左侧顶叶上小叶和左侧顶叶下沟皮层厚度也较高。结论：这些发现提示耳鸣与边缘系统有关，增强了我们对耳鸣的认识。本研究中使用的子场体积测量技术可能有助于识别与特定神经和精神疾病相关的结构差异。

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

Journal of Neuroimaging 医学-核医学

CiteScore

4.70

自引率

0.00%

发文量

117

审稿时长

6-12 weeks

期刊介绍： Start reading the Journal of Neuroimaging to learn the latest neurological imaging techniques. The peer-reviewed research is written in a practical clinical context, giving you the information you need on: MRI CT Carotid Ultrasound and TCD SPECT PET Endovascular Surgical Neuroradiology Functional MRI Xenon CT and other new and upcoming neuroscientific modalities.The Journal of Neuroimaging addresses the full spectrum of human nervous system disease, including stroke, neoplasia, degenerating and demyelinating disease, epilepsy, tumors, lesions, infectious disease, cerebral vascular arterial diseases, toxic-metabolic disease, psychoses, dementias, heredo-familial disease, and trauma.Offering original research, review articles, case reports, neuroimaging CPCs, and evaluations of instruments and technology relevant to the nervous system, the Journal of Neuroimaging focuses on useful clinical developments and applications, tested techniques and interpretations, patient care, diagnostics, and therapeutics. Start reading today!