Alterations of the alpha rhythm in visual snow syndrome: a case-control study

Antonia Klein, Sarah A. Aeschlimann, Frederic Zubler, Adrian Scutelnic, Franz Riederer, Matthias Ertl, Christoph J. Schankin
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Abstract

Visual snow syndrome is a disorder characterized by the combination of typical perceptual disturbances. The clinical picture suggests an impairment of visual filtering mechanisms and might involve primary and secondary visual brain areas, as well as higher-order attentional networks. On the level of cortical oscillations, the alpha rhythm is a prominent EEG pattern that is involved in the prioritisation of visual information. It can be regarded as a correlate of inhibitory modulation within the visual network. Twenty-one patients with visual snow syndrome were compared to 21 controls matched for age, sex, and migraine. We analysed the resting-state alpha rhythm by identifying the individual alpha peak frequency using a Fast Fourier Transform and then calculating the power spectral density around the individual alpha peak (+/- 1 Hz). We anticipated a reduced power spectral density in the alpha band over the primary visual cortex in participants with visual snow syndrome. There were no significant differences in the power spectral density in the alpha band over the occipital electrodes (O1 and O2), leading to the rejection of our primary hypothesis. However, the power spectral density in the alpha band was significantly reduced over temporal and parietal electrodes. There was also a trend towards increased individual alpha peak frequency in the subgroup of participants without comorbid migraine. Our main finding was a decreased power spectral density in the alpha band over parietal and temporal brain regions corresponding to areas of the secondary visual cortex. These findings complement previous functional and structural imaging data at a electrophysiological level. They underscore the involvement of higher-order visual brain areas, and potentially reflect a disturbance in inhibitory top-down modulation. The alpha rhythm alterations might represent a novel target for specific neuromodulation. we preregistered the study before preprocessing and data analysis on the platform osf.org (DOI: https://doi.org/10.17605/OSF.IO/XPQHF , date of registration: November 19th 2022).
视觉雪综合征的阿尔法节奏变化:病例对照研究
视觉雪综合征是一种以典型的知觉障碍组合为特征的疾病。临床表现提示视觉过滤机制受损,可能涉及初级和次级视觉脑区以及高阶注意网络。在大脑皮层振荡的层面上,α节奏是一种显著的脑电图模式,参与视觉信息的优先排序。它可被视为视觉网络内抑制调制的相关因素。我们将21名视觉雪综合征患者与21名年龄、性别和偏头痛相匹配的对照组患者进行了比较。我们分析了静息态阿尔法节律,方法是使用快速傅立叶变换识别单个阿尔法峰值频率,然后计算单个阿尔法峰值周围的功率谱密度(+/- 1赫兹)。我们预计,视觉雪综合征患者初级视觉皮层α波段的功率谱密度会降低。枕部电极(O1 和 O2)α 波段的功率谱密度没有明显差异,因此我们的主要假设被否定。然而,颞部和顶叶电极上的α波段功率谱密度却明显降低。在没有合并偏头痛的参与者亚组中,个体α峰频率也有增加的趋势。我们的主要发现是顶叶和颞叶脑区阿尔法波段的功率谱密度降低,而这些脑区与次级视觉皮层区域相对应。这些发现在电生理水平上补充了之前的功能和结构成像数据。它们强调了高阶视觉脑区的参与,并可能反映了抑制性自上而下调制的紊乱。α节律的改变可能是特定神经调节的一个新靶点。我们在预处理和数据分析之前,在osf.org平台上预先注册了这项研究(DOI: https://doi.org/10.17605/OSF.IO/XPQHF ,注册日期:2022年11月19日):注册日期:2022 年 11 月 19 日)。
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