拉斯穆森脑炎部分性癫痫连续症基于容积的结构连接组。

IF 4.1 Q1 CLINICAL NEUROLOGY
Brain communications Pub Date : 2024-09-20 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae316
Cong Fu, Xue Yang, Mengyang Wang, Xiongfei Wang, Chongyang Tang, Guoming Luan
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引用次数: 0

摘要

拉斯穆森脑炎是一种罕见的进行性神经系统炎症,伴有大脑半球萎缩。部分性癫痫持续状态(EPC)是拉斯穆森脑炎患者的一种临床诊断症状。然而,在拉斯穆森脑炎的自然病程中,EPC 的发病率仅约为 50%。大多数专家认为,EPC 与运动皮层的功能障碍有关,但整个发病机制仍不清楚。我们假设,从结构连接组的角度来看,有 EPC 和没有 EPC 的群体之间存在着特征性的拓扑差异。为此,我们描述了 20 例拉斯穆森脑炎病例(其中 11 例有 EPC,9 例没有 EPC(NEPC))和 20 例健康对照组的结构磁共振成像结果。我们采用体素形态计量法评估灰质体积的变化。我们使用基于体积的结构协变网络,在群体水平上研究了中枢分布和模块化。根据放射组学特征,构建了个体放射组学结构相似性网络,以了解全局拓扑特性,如小世界指数、较高路径长度和聚类系数。然后,利用皮尔逊相关性来划分持续时间与拓扑特性之间的关联。在EPC组和NEPC组中,患侧运动皮层的体积均明显缩小,但EPC组的普鲁士门萎缩最为明显。EPC组的枢纽由执行网络组成,而NEPC组中对侧的丘脑是间度中心性最高的枢纽。与 NEPC 相比,EPC 在结构相似性网络中表现出更高的路径长度和聚类系数。此外,随着拉斯穆森脑炎病程的延长,EPC患者的形态学网络整合功能减弱。我们的研究表明,运动皮层萎缩可能与EPC患者没有直接关系。而普间肌的萎缩和更规则的构型可能有助于EPC的产生。研究结果进一步表明,在拉斯穆森脑炎患者中,普间孔有可能成为控制EPC的可行靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Volume-based structural connectome of epilepsy partialis continua in Rasmussen's encephalitis.

Rasmussen's encephalitis is a rare, progressive neurological inflammatory with hemispheric brain atrophy. Epilepsy partialis continua (EPC) is a diagnostic clinical condition in patients with Rasmussen's encephalitis. However, the incidence of EPC in the natural course of Rasmussen's encephalitis is only about 50%. The majority of experts hold the belief that EPC is associated with dysfunction in the motor cortex, yet the whole pathogenesis remains unclear. We hypothesize that there is a characteristic topological discrepancy between groups with EPC and without EPC from the perspective of structural connectome. To this end, we described the structural MRI findings of 20 Rasmussen's encephalitis cases, 11 of which had EPC, and 9 of which did not have EPC (NEPC), and 20 healthy controls. We performed voxel-based morphometry to evaluate the alterations of grey matter volume. Using a volume-based structural covariant network, the hub distribution and modularity were studied at the group level. Based on the radiomic features, an individual radiomics structural similarity network was constructed for global topological properties, such as small-world index, higher path length, and clustering coefficient. And then, the Pearson correlation was used to delineate the association between duration and topology properties. In the both EPC and NEPC groups, the volume of the motor cortex on the affected side was significantly decreased, but putamen atrophy was most pronounced in the EPC group. Hubs in the EPC group consisted of the executive network, and the contralateral putamen was the hub in the NEPC group with the highest betweenness centrality. Compared to the NEPC, the EPC showed a higher path length and clustering coefficient in the structural similarity network. Moreover, the function of morphological network integration in EPC patients was diminished as the duration of Rasmussen's encephalitis increased. Our study indicates that motor cortex atrophy may not be directly related to EPC patients. Whereas atrophy of the putamen, and a more regularized configuration may contribute to the generation of EPC. The findings further suggest that the putamen could potentially serve as a viable target for controlling EPC in patients with Rasmussen's encephalitis.

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