可逆性脑血管收缩综合征的动态脑自动调节功能受损与 BBB 破坏之间的关系

Yu-Hsiang Ling, Nai-Fang Chi, Li-Ling Hope Pan, Yen-Feng Wang, Chia-Hung Wu, Jiing-Feng Lirng, Jong-Ling Fuh, Shuu-Jiun Wang, Shih-Pin Chen
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引用次数: 0

摘要

半数可逆性脑血管收缩综合征(RCVS)患者表现出影像学证实的血脑屏障破坏。可逆性脑血管收缩综合征(RCVS)中血脑屏障破坏的发病机制尚不清楚,也缺乏针对具体机制的干预措施。我们推测,脑血管失调可能与 RCVS 中的血脑屏障破坏有关。因此,我们旨在评估 RCVS 患者的动态脑自动调节是否发生改变,以及是否与血脑屏障破坏有关。一项横断面研究于 2019 年至 2021 年在一家国家三级医疗中心的头痛诊所进行。对所有参与者的动态脑自动调节功能进行了评估。通过传递函数分析,计算了动态脑自动调节抑制全身血液动力学变化的能力,即脑血流和血压波形在极低频和低频波段的相移和增益。同时还计算了平均血流相关指数。RCVS 患者接受了三维各向同性对比增强 T2 流体衰减反转恢复成像,以观察血脑屏障的破坏情况。45 名 RCVS 患者(41.9 ± 9.8 岁,29 名女性)和 45 名匹配的健康对照者(41.4 ± 12.5 岁,29 名女性)完成了研究。其中 19 名患者存在血脑屏障破坏。与健康对照组相比,RCVS 患者的动态脑自动调节功能较差,表现为极低频段增益较高(左侧:1.6 ± 0.7,p = 0.001;右侧:1.5 ± 0.7,p = 0.003;健康对照组:1.1 ± 0.4):1.1 ± 0.4)和更高的平均血流相关指数(左:0.39 ± 0.20,p = 0.040;右:0.40 ± 0.18,p = 0.017;健康对照组:0.31 ± 0.17):0.31 ± 0.17).此外,与无血脑屏障破坏的患者相比,伴有血脑屏障破坏的 RCVS 患者的动态脑自动调节功能较差,表现为极低频和低频波段的相移较少,平均血流相关指数较高。在 RCVS 患者中,尤其是在血脑屏障受损的患者中,观察到大脑动态自调节功能失调。这些研究结果表明,大脑自动调节功能受损在 RCVS 病理生理学中起着关键作用,并可能与血脑屏障破坏引起的并发症有关,因为它削弱了在血压波动的情况下维持稳定脑血流的能力。
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Association between impaired dynamic cerebral autoregulation and BBB disruption in reversible cerebral vasoconstriction syndrome
Half of the sufferers of reversible cerebral vasoconstriction syndrome (RCVS) exhibit imaging-proven blood-brain barrier disruption. The pathogenesis of blood-brain barrier disruption in RCVS remains unclear and mechanism-specific intervention is lacking. We speculated that cerebrovascular dysregulation might be associated with blood-brain barrier disruption in RCVS. Hence, we aimed to evaluate whether the dynamic cerebral autoregulation is altered in patients with RCVS and could be associated with blood-brain barrier disruption. A cross-sectional study was conducted from 2019 to 2021 at headache clinics of a national tertiary medical center. Dynamic cerebral autoregulation was evaluated in all participants. The capacity of the dynamic cerebral autoregulation to damp the systemic hemodynamic changes, i.e., phase shift and gain between the cerebral blood flow and blood pressure waveforms in the very-low- and low-frequency bands were calculated by transfer function analysis. The mean flow correlation index was also calculated. Patients with RCVS received 3-dimensional isotropic contrast-enhanced T2 fluid-attenuated inversion recovery imaging to visualize blood-brain barrier disruption. Forty-five patients with RCVS (41.9 ± 9.8 years old, 29 females) and 45 matched healthy controls (41.4 ± 12.5 years old, 29 females) completed the study. Nineteen of the patients had blood-brain barrier disruption. Compared to healthy controls, patients with RCVS had poorer dynamic cerebral autoregulation, indicated by higher gain in very-low-frequency band (left: 1.6 ± 0.7, p = 0.001; right: 1.5 ± 0.7, p = 0.003; healthy controls: 1.1 ± 0.4) and higher mean flow correlation index (left: 0.39 ± 0.20, p = 0.040; right: 0.40 ± 0.18, p = 0.017; healthy controls: 0.31 ± 0.17). Moreover, patients with RCVS with blood-brain barrier disruption had worse dynamic cerebral autoregulation, as compared to those without blood-brain barrier disruption, by having less phase shift in very-low- and low-frequency bands, and higher mean flow correlation index. Dysfunctional dynamic cerebral autoregulation was observed in patients with RCVS, particularly in those with blood-brain barrier disruption. These findings suggest that impaired cerebral autoregulation plays a pivotal role in RCVS pathophysiology and may be relevant to complications associated with blood-brain barrier disruption by impaired capacity of maintaining stable cerebral blood flow under fluctuating blood pressure.
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