元认知疗法的神经生物学机制——一种实验范式
Neurobiological Mechanisms of Metacognitive Therapy - An Experimental Paradigm.
作者信息
Winter Lotta, Alam Mesbah, Heissler Hans E, Saryyeva Assel, Milakara Denny, Jin Xingxing, Heitland Ivo, Schwabe Kerstin, Krauss Joachim K, Kahl Kai G
机构信息
Department of Psychiatry, Social Psychiatry and Psychotherapy, Hannover Medical School, Hanover, Germany.
Department of Neurosurgery, Hannover Medical School, Hanover, Germany.
出版信息
Front Psychol. 2019 Apr 4;10:660. doi: 10.3389/fpsyg.2019.00660. eCollection 2019.
INTRODUCTION
The neurobiological mechanisms underlying the clinical effects of psychotherapy are scarcely understood. In particular, the modifying effects of psychotherapy on neuronal activity are largely unknown. We here present data from an innovative experimental paradigm using the example of a patient with treatment resistant obsessive-compulsive disorder (trOCD) who underwent implantation of bilateral electrodes for deep brain stimulation (DBS). The aim of the paradigm was to examine the short term effect of metacognitive therapy (MCT) on neuronal local field potentials (LFP) before and after 5 MCT sessions.
METHODS
DBS electrodes were implanted bilaterally with stereotactic guidance in the bed nucleus of the stria terminalis/ internal capsule (BNST/IC). The period between implantation of the electrodes and the pacemaker was used for the experimental paradigm. DBS electrodes were externalized via extension cables, yielding the opportunity to record LFP directly from the BNST/IC. The experimental paradigm was designed as follows: (a) baseline recording of LFP from the BNST/IC, (b) application of 5 MCT sessions over 3 days, (c) post-MCT recording from the BNST/IC. The Obsessive-Compulsive Disorder- scale (OCD-S) was used to evaluate OCD symptoms.
RESULTS
OCD symptoms decreased after MCT. These reductions were accompanied by a decrease of the relative power of theta band activity, while alpha, beta, and gamma band activity was significantly increased after MCT. Further, analysis of BNST/IC LFP and frontal cortex EEG coherence showed that MCT decreased theta frequency band synchronization.
DISCUSSION
Implantation of DBS electrodes for treating psychiatric disorders offers the opportunity to gather data from neuronal circuits, and to compare effects of therapeutic interventions. Here, we demonstrate direct effects of MCT on neuronal oscillatory behavior, which may give possible cues for the neurobiological changes associated with psychotherapy.
引言
心理治疗临床效果背后的神经生物学机制鲜为人知。尤其是心理治疗对神经元活动的调节作用在很大程度上尚不清楚。我们在此展示来自一种创新实验范式的数据,该范式以一名难治性强迫症(trOCD)患者为例,该患者接受了双侧电极植入以进行深部脑刺激(DBS)。该范式的目的是在5次元认知疗法(MCT)治疗前后,研究MCT对神经元局部场电位(LFP)的短期影响。
方法
双侧在立体定向引导下将DBS电极植入终纹床核/内囊(BNST/IC)。电极植入与起搏器植入之间的时间段用于该实验范式。DBS电极通过延长电缆引出,从而有机会直接从BNST/IC记录LFP。实验范式设计如下:(a)从BNST/IC进行LFP的基线记录,(b)在3天内进行5次MCT治疗,(c)MCT治疗后从BNST/IC进行记录。使用强迫症量表(OCD-S)评估强迫症症状。
结果
MCT治疗后强迫症症状减轻。这些减轻伴随着θ频段活动相对功率的降低,而α、β和γ频段活动在MCT治疗后显著增加。此外,对BNST/IC LFP和额叶皮层脑电图相干性的分析表明,MCT降低了θ频段同步性。
讨论
植入DBS电极治疗精神疾病为从神经回路收集数据以及比较治疗干预效果提供了机会。在此我们证明了MCT对神经元振荡行为的直接影响,这可能为与心理治疗相关的神经生物学变化提供线索。
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