Ahmanson-Lovelace Brain Mapping Center, Department of Neurology, University of California, Los Angeles, Los Angeles, California.
Department of Psychiatry and Biobehavioral Sciences, University of California, Los Angeles, Los Angeles, California.
Biol Psychiatry Cogn Neurosci Neuroimaging. 2019 Mar;4(3):300-309. doi: 10.1016/j.bpsc.2018.11.003. Epub 2018 Nov 14.
Electroconvulsive therapy (ECT) is an effective treatment for severe depression and is shown to increase hippocampal volume and modulate hippocampal functional connectivity. Whether variations in hippocampal structural connectivity occur with ECT and relate to clinical response is unknown.
Patients with major depression (n = 36, 20 women, age 41.49 ± 13.57 years) underwent diffusion magnetic resonance imaging at baseline and after ECT. Control subjects (n = 32, 17 women, age 39.34 ± 12.27 years) underwent scanning twice. Functionally defined seeds in the left and right anterior hippocampus and probabilistic tractography were used to extract tract volume and diffusion metrics (fractional anisotropy and axial, radial, and mean diffusivity). Statistical analyses determined effects of ECT and time-by-response group interactions (>50% change in symptoms before and after ECT defined response). Differences between baseline measures across diagnostic groups and in association with treatment outcome were also examined.
Significant effects of ECT (all p < .01) and time-by-response group interactions (all p < .04) were observed for axial, radial, and mean diffusivity for right, but not left, hippocampal pathways. Follow-up analyses showed that ECT-related changes occurred in responders only (all p < .01) as well as in relation to change in mood examined continuously (all p < .004). Baseline measures did not relate to symptom change or differ between patients and control subjects. All measures remained stable across time in control subjects. No significant effects were observed for fractional anisotropy and volume.
Structural connectivity of hippocampal neural circuits changed with ECT and distinguished treatment responders. The findings suggested neurotrophic, glial, or inflammatory response mechanisms affecting axonal integrity.
电抽搐疗法(ECT)是一种有效的重度抑郁症治疗方法,已被证明可以增加海马体体积并调节海马体功能连接。但目前尚不清楚 ECT 是否会引起海马体结构连接的变化,以及这种变化是否与临床反应相关。
36 名重度抑郁症患者(20 名女性,年龄 41.49 ± 13.57 岁)和 32 名健康对照者(17 名女性,年龄 39.34 ± 12.27 岁)分别在基线和 ECT 后接受弥散磁共振成像检查。使用左、右侧前海马体的功能定义种子和概率追踪技术提取束流体积和弥散指标(各向异性分数和轴向、径向和平均弥散度)。统计分析确定了 ECT 的影响以及时间与反应组的相互作用(ECT 前后症状变化超过 50%定义为反应)。还检查了基线测量值在诊断组之间的差异以及与治疗结果的关系。
右侧而非左侧海马体通路的轴向、径向和平均弥散度均显示出 ECT(均 p <.01)和时间与反应组的相互作用(均 p <.04)的显著影响。随访分析显示,ECT 相关的变化仅发生在有反应者中(均 p <.01),且与连续评估的情绪变化有关(均 p <.004)。基线测量值与症状变化无关,也在患者和健康对照者之间没有差异。所有指标在健康对照者中均保持稳定。各向异性分数和体积没有观察到显著影响。
海马体神经回路的结构连接随 ECT 而改变,可区分治疗反应者。研究结果提示了影响轴突完整性的神经营养、神经胶质或炎症反应机制。
