使用磁共振成像研究电休克治疗难治性精神分裂症的潜在机制。
Putative Mechanisms of Electroconvulsive Therapy in Treatment-Resistant Schizophrenia Examined Using Magnetic Resonance Imaging.
作者信息
Roy Neelabja, Ithal Dhruva, Mehta Urvakhsh Meherwan, Basavaraju Rakshathi, Bharath Rose Dawn, Bolo Nicolas R, Thirthalli Jagadisha, Gangadhar Bangalore N, Keshavan Matcheri S
机构信息
Department of Psychiatry, National Institute of Mental Health and Neuro Sciences, Bangalore, India.
Department of Neuroimaging and Interventional Radiology, National Institute of Mental Health and Neuro Sciences, Bangalore, India.
出版信息
Biol Psychiatry Glob Open Sci. 2025 Apr 1;5(4):100494. doi: 10.1016/j.bpsgos.2025.100494. eCollection 2025 Jul.
BACKGROUND
The neural mechanisms of electroconvulsive therapy (ECT) in refractory schizophrenia remain elusive. In the current study, we aimed to identify magnetic resonance imaging (MRI)-derived structural (cortical/subcortical volumes) and functional (resting-state connectivity) brain changes after ECT and their associations with clinical response.
METHODS
We used an inductive (whole-brain, hypothesis-free) approach to examine structural and functional brain changes and their association with clinical response (positive symptom reduction) in clozapine-refractory schizophrenia ( = 30) after ECT (median 8 sessions). Furthermore, a deductive approach was used to compare baseline whole-brain MRI data from clozapine-refractory patients ( = 31) to data from clozapine responders ( = 23), thereby identifying regions of interest unique to clozapine-refractory schizophrenia. Changes in these regions of interest post-ECT and their association with clinical response were then examined.
RESULTS
The inductive approach identified volumetric enhancement in the bilateral amygdalae (Cohen's = 0.4), which was significantly associated with clinical response (β = -0.01, = .003). The deductive approach identified posterior cerebellar hyperconnectivity as being unique to clozapine-refractory schizophrenia ( = 1.57), which was associated with baseline positive symptoms ( = 0.36, = .04). Following ECT, there was a significant reduction in posterior cerebellar hyperconnectivity ( = -0.86), and this reduction was significantly associated with clinical response (β = 0.42, = .002). Increased hippocampal and frontal volumes, frontoparietal connectivity, and reduced sensorimotor connectivity were also observed but were unrelated to clinical response.
CONCLUSIONS
ECT may drive clinical improvement in refractory schizophrenia by increasing amygdala volumes and reducing posterior cerebellar connectivity. Randomized sham-controlled trials can confirm these findings in the future.
背景
电休克治疗(ECT)在难治性精神分裂症中的神经机制仍不清楚。在本研究中,我们旨在确定ECT后磁共振成像(MRI)得出的大脑结构(皮质/皮质下体积)和功能(静息态连接性)变化及其与临床反应的关联。
方法
我们采用归纳法(全脑、无假设)来检查ECT(中位数8次治疗)后氯氮平难治性精神分裂症患者(n = 30)的大脑结构和功能变化及其与临床反应(阳性症状减轻)的关联。此外,采用演绎法将氯氮平难治性患者(n = 31)的基线全脑MRI数据与氯氮平反应者(n = 23)的数据进行比较,从而确定氯氮平难治性精神分裂症特有的感兴趣区域。然后检查ECT后这些感兴趣区域的变化及其与临床反应的关联。
结果
归纳法确定双侧杏仁核体积增大(科恩d值 = 0.4),这与临床反应显著相关(β = -0.01,P = .003)。演绎法确定小脑后部高连接性是氯氮平难治性精神分裂症所特有的(效应量 = 1.57),这与基线阳性症状相关(r = 0.36,P = .04)。ECT后,小脑后部高连接性显著降低(效应量 = -0.86),这种降低与临床反应显著相关(β = 0.42,P = .002)。还观察到海马体和额叶体积增加、额顶叶连接性增加以及感觉运动连接性降低,但这些与临床反应无关。
结论
ECT可能通过增加杏仁核体积和降低小脑后部连接性来推动难治性精神分裂症的临床改善。未来的随机假对照试验可以证实这些发现。
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