重复氯胺酮输注对重性抑郁症患者皮质边缘功能连接的影响。
Effects of Serial Ketamine Infusions on Corticolimbic Functional Connectivity in Major Depression.
机构信息
Ahmanson-Lovelace Brain Mapping Center, Department of Neurology, Geffen School of Medicine, University of California, Los Angeles, Los Angeles, California.
Jane and Terry Semel Institute for Neuroscience and Human Behavior, Department of Psychiatry and Biobehavioral Sciences, Geffen School of Medicine, University of California, Los Angeles, Los Angeles, California.
出版信息
Biol Psychiatry Cogn Neurosci Neuroimaging. 2021 Jul;6(7):735-744. doi: 10.1016/j.bpsc.2020.06.015. Epub 2020 Jul 3.
BACKGROUND
Ketamine is a highly effective antidepressant for patients with treatment-resistant major depressive disorder (MDD). Resting-state functional magnetic resonance imaging studies show disruptions of functional connectivity (FC) between limbic regions and resting-state networks (RSNs) in MDD, including the default mode network, central executive network (CEN), and salience network (SN). Here, we investigated whether serial ketamine treatments change FC between limbic structures and RSNs.
METHODS
Patients with MDD (n = 44) were scanned at baseline (time 1 [T1]) and 24 hours after the first (T2) and fourth (T3) infusions of ketamine. Healthy control subjects (n = 50) were scanned at baseline, with a subgroup (n = 17) being rescanned at 2 weeks. Limbic regions included the amygdala and hippocampus, and RSNs included the default mode network, CEN, and SN.
RESULTS
Ketamine increased right amygdala FC to the right CEN (p = .05), decreased amygdala FC to the left CEN (p = .005) at T2 versus T1 (p = .015), which then increased at T3 versus T2 (p = .002), and decreased left amygdala FC to the SN (p = .016). Decreased left amygdala to SN FC at T2 predicted improvements in anxiety at T3 (p = .006). Ketamine increased right hippocampus FC to the left CEN (p = .001), and this change at T2 predicted decreased anhedonia at T3 (p = .005).
CONCLUSIONS
Ketamine modulates FC between limbic regions and RSNs implicated in MDD. Increases in FC between limbic regions and the CEN suggest that ketamine may be involved in restoring top-down control of emotion processing. FC decreases between the left amygdala and SN suggest that ketamine may ameliorate MDD-related dysconnectivity in these circuits. Early FC changes between limbic regions and RSNs may be predictive of clinical improvements.
背景
氯胺酮是一种治疗难治性重度抑郁症(MDD)患者的高效抗抑郁药。静息态功能磁共振成像研究显示,MDD 患者边缘区域与静息态网络(RSN)之间的功能连接(FC)中断,包括默认模式网络、中央执行网络(CEN)和突显网络(SN)。在这里,我们研究了连续氯胺酮治疗是否会改变边缘结构与 RSN 之间的 FC。
方法
MDD 患者(n=44)在基线(时间 1 [T1])和第一次(T2)和第四次(T3)氯胺酮输注后 24 小时进行扫描。健康对照组(n=50)在基线时进行扫描,其中一个亚组(n=17)在 2 周时进行重扫。边缘区域包括杏仁核和海马体,RSN 包括默认模式网络、CEN 和 SN。
结果
氯胺酮增加了右侧杏仁核与右侧 CEN 的 FC(p=0.05),降低了 T2 时左侧杏仁核与左侧 CEN 的 FC(p=0.005)(p=0.015),然后在 T3 时增加(p=0.002),并降低了左侧杏仁核与 SN 的 FC(p=0.016)。T2 时左侧杏仁核到 SN 的 FC 降低预测 T3 时焦虑的改善(p=0.006)。氯胺酮增加了右侧海马体与左侧 CEN 的 FC(p=0.001),T2 时的这种变化预测了 T3 时快感缺失的减少(p=0.005)。
结论
氯胺酮调节了与 MDD 相关的边缘区域和 RSN 之间的 FC。边缘区域与 CEN 之间 FC 的增加表明,氯胺酮可能参与恢复对情绪处理的自上而下的控制。左杏仁核与 SN 之间 FC 的降低表明,氯胺酮可能改善这些回路中与 MDD 相关的连通性障碍。边缘区域与 RSN 之间的早期 FC 变化可能是临床改善的预测因素。
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