人类海马体体积与电抽搐治疗后的临床反应。
Volume of the Human Hippocampus and Clinical Response Following Electroconvulsive Therapy.
机构信息
Department of Clinical Medicine, University of Bergen, Bergen, Norway; Mohn Medical Imaging and Visualization Centre, Department of Radiology, Haukeland University Hospital, Bergen, Norway; Center for Multimodal Imaging and Genetics, University of California, San Diego, La Jolla, California; Department of Radiology, University of California, San Diego, La Jolla, California.
Departments of Neurology, Psychiatry, and Biobehavioral Sciences, University of California, Los Angeles, California.
出版信息
Biol Psychiatry. 2018 Oct 15;84(8):574-581. doi: 10.1016/j.biopsych.2018.05.017. Epub 2018 May 29.
BACKGROUND
Hippocampal enlargements are commonly reported after electroconvulsive therapy (ECT). To clarify mechanisms, we examined if ECT-induced hippocampal volume change relates to dose (number of ECT sessions and electrode placement) and acts as a biomarker of clinical outcome.
METHODS
Longitudinal neuroimaging and clinical data from 10 independent sites participating in the Global ECT-Magnetic Resonance Imaging Research Collaboration (GEMRIC) were obtained for mega-analysis. Hippocampal volumes were extracted from structural magnetic resonance images, acquired before and after patients (n = 281) experiencing a major depressive episode completed an ECT treatment series using right unilateral and bilateral stimulation. Untreated nondepressed control subjects (n = 95) were scanned twice.
RESULTS
The linear component of hippocampal volume change was 0.28% (SE 0.08) per ECT session (p < .001). Volume change varied by electrode placement in the left hippocampus (bilateral, 3.3 ± 2.2%, d = 1.5; right unilateral, 1.6 ± 2.1%, d = 0.8; p < .0001) but not the right hippocampus (bilateral, 3.0 ± 1.7%, d = 1.8; right unilateral, 2.7 ± 2.0%, d = 1.4; p = .36). Volume change for electrode placement per ECT session varied similarly by hemisphere. Individuals with greater treatment-related volume increases had poorer outcomes (Montgomery-Åsberg Depression Rating Scale change -1.0 [SE 0.35], per 1% volume increase, p = .005), although the effects were not significant after controlling for ECT number (slope -0.69 [SE 0.38], p = .069).
CONCLUSIONS
The number of ECT sessions and electrode placement impacts the extent and laterality of hippocampal enlargement, but volume change is not positively associated with clinical outcome. The results suggest that the high efficacy of ECT is not explained by hippocampal enlargement, which alone might not serve as a viable biomarker for treatment outcome.
背景
电抽搐治疗(ECT)后常报告海马体增大。为了阐明机制,我们研究了 ECT 诱导的海马体体积变化是否与剂量(ECT 次数和电极放置)有关,并作为临床结果的生物标志物。
方法
从参与全球 ECT 磁共振成像研究合作组织(GEMRIC)的 10 个独立站点获得纵向神经影像学和临床数据进行荟萃分析。从经历过一次重度抑郁发作的患者(n=281)完成一系列 ECT 治疗后,使用右侧单侧和双侧刺激,在结构磁共振图像上提取海马体体积。未接受治疗的非抑郁对照受试者(n=95)扫描两次。
结果
海马体体积变化的线性成分是每 ECT 疗程 0.28%(SE 0.08)(p<0.001)。左海马体的电极放置位置不同(双侧,3.3±2.2%,d=1.5;右侧单侧,1.6±2.1%,d=0.8;p<0.0001),但右海马体则不然(双侧,3.0±1.7%,d=1.8;右侧单侧,2.7±2.0%,d=1.4;p=0.36)。每个 ECT 疗程的电极放置体积变化也类似地因半球而异。治疗相关体积增加较多的个体结局较差(蒙哥马利-阿斯伯格抑郁评定量表改变-1.0[SE 0.35],每 1%体积增加,p=0.005),尽管在控制 ECT 次数后,这些影响并不显著(斜率-0.69[SE 0.38],p=0.069)。
结论
ECT 次数和电极放置影响海马体增大的程度和侧别,但体积变化与临床结果无正相关。结果表明,ECT 的高疗效不能用海马体增大来解释,单独海马体增大可能不能作为治疗结果的可行生物标志物。
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