无先兆偏头痛患者多个时间尺度上功能磁共振成像信号复杂性的改变
Alteration in Functional Magnetic Resonance Imaging Signal Complexity Across Multiple Time Scales in Patients With Migraine Without Aura.
作者信息
Wang Xiao, Zhang Yutong, Qi Wenchuan, Xu Tao, Wang Ziwen, Liao Huaqiang, Wang Yanan, Liu Jie, Yu Yang, He Zhenxi, Gao Shan, Li Dehua, Zhang Guilin, Zhao Ling
机构信息
College of Acupuncture, Moxibustion and Tuina, Chengdu University of Traditional Chinese Medicine, Chengdu, China.
Hospital of Chengdu University of Traditional Chinese Medicine, Chengdu, China.
出版信息
Front Neurosci. 2022 Mar 7;16:825172. doi: 10.3389/fnins.2022.825172. eCollection 2022.
BACKGROUND
Migraine is a primary neurological disorder associated with complex brain activity. Recently, mounting evidence has suggested that migraine is underpinned by aberrant dynamic brain activity characterized by linear and non-linear changes across a variety of time scales. However, the abnormal dynamic brain activity at different time scales is still unknown in patients with migraine without aura (MWoA). This study aimed to assess the altered patterns of brain activity dynamics over different time scales and the potential pathophysiological mechanisms of alterations in patients with MWoA.
METHODS
Multiscale entropy in 50 patients and 20 healthy controls (HCs) was calculated to investigate the patterns and altered brain complexity (BC) across five different time scales. Spearman rank correlation analysis between BC in regions showing significant intergroup differences and clinical scores (i.e., frequency of migraine attacks, duration, headache impact test) was conducted in patients with MWoA.
RESULTS
The spatial distribution of BC varied across different time scales. At time scale1, BC was higher in the posterior default mode network (DMN) across participants. Compared with HCs, patients with MWoA had higher BC in the DMN and sensorimotor network. At time scale2, BC was mainly higher in the anterior DMN across participants. Patients with MWoA had higher BC in the sensorimotor network. At time scale3, BC was mainly higher in the frontoparietal network across participants. Patients with MWoA had increased BC in the parietal gyrus. At time scale4, BC is mainly higher in the sensorimotor network. Patients with MWoA had higher BC in the postcentral gyrus. At time scale5, BC was mainly higher in the DMN. Patients with MWoA had lower BC in the posterior DMN. In particular, BC values in the precuneus and paracentral lobule significantly correlated with clinical symptoms.
CONCLUSION
Migraine is associated with alterations in dynamic brain activity in the sensorimotor network and DMN over multiple time scales. Time-varying BC within these regions could be linked to instability in pain transmission and modulation. Our findings provide new evidence for the hypothesis of abnormal dynamic brain activity in migraine.
背景
偏头痛是一种与复杂脑活动相关的原发性神经疾病。最近,越来越多的证据表明,偏头痛的基础是异常的动态脑活动,其特征是在各种时间尺度上存在线性和非线性变化。然而,无先兆偏头痛(MWoA)患者在不同时间尺度上的异常动态脑活动仍不清楚。本研究旨在评估MWoA患者在不同时间尺度上脑活动动力学的改变模式及其改变的潜在病理生理机制。
方法
计算50例患者和20名健康对照(HCs)的多尺度熵,以研究五个不同时间尺度上的模式和脑复杂性(BC)改变。对MWoA患者中显示出显著组间差异的区域的BC与临床评分(即偏头痛发作频率、持续时间、头痛影响测试)进行Spearman等级相关分析。
结果
BC的空间分布在不同时间尺度上有所不同。在时间尺度1时,参与者后默认模式网络(DMN)中的BC较高。与HCs相比,MWoA患者在DMN和感觉运动网络中的BC较高。在时间尺度2时,参与者前DMN中的BC主要较高。MWoA患者在感觉运动网络中的BC较高。在时间尺度3时,参与者额顶网络中的BC主要较高。MWoA患者顶叶回的BC增加。在时间尺度4时,感觉运动网络中的BC主要较高。MWoA患者中央后回的BC较高。在时间尺度5时,DMN中的BC主要较高。MWoA患者后DMN中的BC较低。特别是,楔前叶和中央旁小叶的BC值与临床症状显著相关。
结论
偏头痛与感觉运动网络和DMN在多个时间尺度上的动态脑活动改变有关。这些区域内随时间变化的BC可能与疼痛传递和调节的不稳定性有关。我们的数据为偏头痛中异常动态脑活动的假说提供了新证据。
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