The Role of Cerebellum and Basal Ganglia Functional Connectivity in Altered Voluntary Movement Execution in Essential Tremor.

IF 2.7 3区 医学 Q3 NEUROSCIENCES Cerebellum Pub Date : 2024-10-01 Epub Date: 2024-05-18 DOI:10.1007/s12311-024-01699-6
Massimiliano Passaretti, Claudia Piervincenzi, Viola Baione, Gabriele Pasqua, Donato Colella, Sara Pietracupa, Nikolaos Petsas, Luca Angelini, Antonio Cannavacciuolo, Giulia Paparella, Alfredo Berardelli, Patrizia Pantano, Matteo Bologna
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Abstract

Substantial evidence highlights the role of the cerebellum in the pathophysiology of tremor in essential tremor (ET), although its potential involvement in altered movement execution in this condition remains unclear. This study aims to explore potential correlations between the cerebellum and basal ganglia functional connectivity and voluntary movement execution abnormalities in ET, objectively assessed with kinematic techniques. A total of 20 patients diagnosed with ET and 18 healthy subjects were enrolled in this study. Tremor and repetitive finger tapping were recorded using an optoelectronic kinematic system. All participants underwent comprehensive 3T-MRI examinations, including 3D-T1 and blood-oxygen-level dependent (BOLD) sequences during resting state. Morphometric analysis was conducted on the 3D-T1 images, while a seed-based analysis was performed to investigate the resting-state functional connectivity (rsFC) of dorsal and ventral portions of the dentate nucleus and the external and internal segments of the globus pallidus. Finally, potential correlations between rsFC alterations in patients and clinical as well as kinematic scores were assessed. Finger tapping movements were slower in ET than in healthy subjects. Compared to healthy subjects, patients with ET exhibited altered FC of both dentate and globus pallidus with cerebellar, basal ganglia, and cortical areas. Interestingly, both dentate and pallidal FC exhibited positive correlations with movement velocity in patients, differently from that we observed in healthy subjects, indicating the higher the FC, the faster the finger tapping. The findings of this study indicate the possible role of both cerebellum and basal ganglia in the pathophysiology of altered voluntary movement execution in patients with ET.

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小脑和基底节功能连接在本质性震颤患者自主运动执行能力改变中的作用
大量证据表明,小脑在震颤性震颤(ET)的病理生理学中扮演着重要角色,但其在该病症的运动执行改变中的潜在参与作用仍不清楚。本研究旨在探讨小脑和基底节功能连接与 ET 患者自主运动执行异常之间的潜在相关性,并通过运动学技术进行客观评估。本研究共纳入了 20 名确诊为 ET 的患者和 18 名健康受试者。研究人员使用光电运动学系统记录震颤和重复性手指敲击。所有参与者都接受了全面的 3T-MRI 检查,包括静息状态下的 3D-T1 和血氧水平依赖性(BOLD)序列。对 3D-T1 图像进行了形态计量分析,同时进行了基于种子的分析,以研究齿状核背侧和腹侧部分以及球状苍白球外部和内部节段的静息状态功能连接(rsFC)。最后,还评估了患者的rsFC改变与临床和运动学评分之间的潜在相关性。与健康受试者相比,ET 患者的手指敲击运动较慢。与健康受试者相比,ET患者的齿状核和球状苍白球与小脑、基底节和皮质区域的FC均有改变。有趣的是,患者的齿状核和苍白球FC与运动速度呈正相关,这与我们在健康人身上观察到的不同,表明FC越高,手指敲击的速度越快。这项研究的结果表明,小脑和基底神经节在 ET 患者自主运动执行能力改变的病理生理学中可能都扮演着重要角色。
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来源期刊
Cerebellum
Cerebellum 医学-神经科学
CiteScore
6.40
自引率
14.30%
发文量
150
审稿时长
4-8 weeks
期刊介绍: Official publication of the Society for Research on the Cerebellum devoted to genetics of cerebellar ataxias, role of cerebellum in motor control and cognitive function, and amid an ageing population, diseases associated with cerebellar dysfunction. The Cerebellum is a central source for the latest developments in fundamental neurosciences including molecular and cellular biology; behavioural neurosciences and neurochemistry; genetics; fundamental and clinical neurophysiology; neurology and neuropathology; cognition and neuroimaging. The Cerebellum benefits neuroscientists in molecular and cellular biology; neurophysiologists; researchers in neurotransmission; neurologists; radiologists; paediatricians; neuropsychologists; students of neurology and psychiatry and others.
期刊最新文献
Correction: Systematic Review and Meta-Analysis of the Diagnostic Accuracy of a Graded Gait and Truncal Instability Rating in Acutely Dizzy and Ataxic Patients. Correction: Long-Term Follow-Up Before and During Riluzole Treatment in Six Patients from Two Families with Spinocerebellar Ataxia Type 7. Correction: Silica Nanoparticles from Melon Seed Husk Abrogated Binary Metal(loid) Mediated Cerebellar Dysfunction by Attenuation of Oxido-inflammatory Response and Upregulation of Neurotrophic Factors in Male Albino Rats. Clinical Heterogeneity of Essential Tremor: Understanding Neural Substrates of Action Tremor Subtypes. The Neuroimmune System and the Cerebellum.
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