对比增强 MRI T1 映射在人类大脑睡眠-觉醒状态下对潜在动态神经淋巴功能的定量评估。
Contrast-enhanced MRI T1 Mapping for Quantitative Evaluation of Putative Dynamic Glymphatic Activity in the Human Brain in Sleep-Wake States.
机构信息
From the Departments of Radiology (S.L., R.E.Y., S.H.C., J.Y.L., I.H., K.M.K., T.J.Y., J.H.K., C.H.S.) and Clinical Pharmacology and Therapeutics (K.Y.H.), Seoul National University Hospital, Seoul National University College of Medicine, 101 Daehangno, Jongno-gu, Seoul 03080, Republic of Korea; Center for Nanoparticle Research, Institute for Basic Science, Seoul, Republic of Korea (S.H.C.); School of Chemical and Biological Engineering (S.H.C.) and Department of Electrical and Computer Engineering (S.J., J.L.), Seoul National University, Seoul, Republic of Korea; and Department of Biomedical Engineering, Hankuk University of Foreign Studies, Yongin-si, Republic of Korea (S.H.O.).
出版信息
Radiology. 2021 Sep;300(3):661-668. doi: 10.1148/radiol.2021203784. Epub 2021 Jun 22.
Background Evaluation of the glymphatic system with intrathecal contrast material injection has limited clinical use. Purpose To investigate the feasibility of using serial intravenous contrast-enhanced T1 mapping in the quantitative evaluation of putative dynamic glymphatic activity in various brain regions and to demonstrate the effect of sleep on glymphatic activity in humans. Materials and Methods In this prospective study from May 2019 to February 2020, 25 healthy participants (mean age, 25 years ± 2 [standard deviation]; 15 men) underwent two cycles of MRI (day and night cycles). For each cycle, T1 maps were acquired at baseline and 0.5, 1, 1.5, 2, and 12 hours after intravenous contrast material injection. For the night cycle, participants had a normal night of sleep between 2 and 12 hours. The time () to reach the minimum T1 value (T1), the absolute difference between baseline T1 and T1 (peak ΔT1), and the slope between two measurements at 2 and 12 hours (slope) were determined from T1 value-time curves in cerebral gray matter (GM), cerebral white matter (WM), cerebellar GM, cerebellar WM, and putamen. Mixed-model analysis of variance (ANOVA), Friedman test, and repeated-measures ANOVA were used to assess the effect of sleep on slope and to compare and peak ΔT1 among different regions. Results The slope increased from the day to night cycles in cerebral GM, cerebellar GM, and putamen (geometric mean ratio [night/day] = 1.4 [95% CI: 1.2, 1.7], 1.3 [95% CI: 1.1, 1.4], and 2.4 [95% CI: 1.6, 3.6], respectively; = .001, < .001, and < .001, respectively). Median values were 0.5 hour in cerebral and cerebellar GM and putamen for both cycles. Cerebellar GM had the highest mean peak ΔT1, followed by cerebral GM and putamen in both day (159 msec ± 6, 99 msec ± 4, and 62 msec ± 5, respectively) and night (152 msec ± 6, 104 msec ± 6, and 58 msec ± 4, respectively) cycles. Conclusion Clearance of a gadolinium-based contrast agent was greater after sleep compared with daytime wakefulness. These results suggest that sleep was associated with greater glymphatic clearance compared with wakefulness. © RSNA, 2021 . See also the editorial by Anzai and Minoshima in this issue.
背景 鞘内对比剂注射评估糖质系统在临床上的应用有限。目的 探讨在各种脑区定量评估假定的动态糖质系统活性中使用连续静脉对比增强 T1 映射的可行性,并证明睡眠对人类糖质系统活性的影响。材料与方法 本前瞻性研究于 2019 年 5 月至 2020 年 2 月进行,共纳入 25 名健康志愿者(平均年龄 25 岁±2 岁[标准差];15 名男性),进行两轮 MRI 检查(白天和夜间循环)。每轮检查均在静脉注射对比剂后 0.5、1、1.5、2 和 12 小时采集 T1 图。对于夜间循环,志愿者在 2 至 12 小时之间进行正常夜间睡眠。从脑灰质(GM)、脑白质(WM)、小脑 GM、小脑 WM 和壳核的 T1 值-时间曲线中确定达到最小 T1 值(T1)的时间()、基线 T1 与 T1 的绝对差值(峰值 ΔT1)以及 2 小时和 12 小时之间两次测量的斜率(斜率)。采用混合模型方差分析(ANOVA)、Friedman 检验和重复测量 ANOVA 评估睡眠对斜率的影响,并比较不同区域的和峰值 ΔT1。结果 与白天循环相比,脑 GM、小脑 GM 和壳核的斜率在夜间循环中增加(几何均数比[夜间/白天]分别为 1.4[95%CI:1.2,1.7]、1.3[95%CI:1.1,1.4]和 2.4[95%CI:1.6,3.6];=0.001,<0.001,<0.001)。两轮循环的 GM 和壳核的中位数分别为 0.5 小时。小脑 GM 的平均峰值 ΔT1 最高,其次是脑 GM 和壳核,白天分别为 159 毫秒±6、99 毫秒±4 和 62 毫秒±5,夜间分别为 152 毫秒±6、104 毫秒±6 和 58 毫秒±4。结论 与白天清醒相比,睡眠后钆基造影剂的清除率更高。这些结果表明,与清醒相比,睡眠与更高的糖质系统清除率有关。©2021RSNA。本期杂志中还可查看 Anzai 和 Minoshima 的社论。
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