内侧前额叶皮层在精神分裂症自我能动性中的作用。

Journal of psychiatry and brain science Pub Date : 2021-01-01 Epub Date: 2021-10-14 DOI:10.20900/jpbs.20210017
Karuna Subramaniam
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引用次数: 3

摘要

精神分裂症是一种自我失调。特别是,患者表现出自我代理的基本缺陷(即,作为自己思想和行为的代理人的经验和意识),这直接导致了幻觉和妄想的阳性精神病症状,扭曲了现实监测(定义为区分自我产生的信息和外部来源的信息)。预测编码模型表明,自我代理的经验是由自我生成行为的预测感官结果与实际结果之间的最小预测误差产生的。换句话说,自我代理的体验被认为是通过对自己行为的预期结果做出可靠的预测来驱动的。大多数代理文献都集中在运动系统上;在这里,我们提出了一种新的观点,从不同的角度使用现实监测和语音监测的不同任务来检查代理。导致自我代理的自我预测机制对于现实监控是必要的,因为自我预测是一个人在现实监控过程中对自己的思想和行为进行成功编码和记忆检索的关键前兆,从而实现准确的自我代理判断(即准确识别自我生成的信息)。这种自我预测机制对于我们不断比较听觉反馈(即我们听到自己说的话)和我们期望听到的话的语音监控也很重要。先前的研究表明,内侧前额叶皮层(mPFC)可能是这种自我预测机制的一个潜在神经基质。不幸的是,精神分裂症(SZ)患者在现实和言语监测任务中表现出与自我代理障碍相关的mPFC低活性,以及在静息状态内在代理测量中mPFC功能连接异常,这预示着精神病症状的恶化。因果神经刺激和神经反馈技术可以将精神分裂症研究的前沿推进到一个新时代,在这个时代,我们实施技术来操纵关键神经区域的兴奋性,例如mPFC,以调节患者对现实和语言监测不同任务的自我预测机制的依赖。我们假设这些发现将表明mPFC为自我代理提供了一个统一的基础,由依赖自我预测机制驱动,这将促进精神分裂症患者新的靶向治疗的发展。
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The Role of the Medial Prefontal Cortex in Self-Agency in Schizophrenia.

Schizophrenia is a disorder of the self. In particular, patients show cardinal deficits in self-agency (i.e., the experience and awareness of being the agent of one's own thoughts and actions) that directly contribute to positive psychotic symptoms of hallucinations and delusions and distort reality monitoring (defined as distinguishing self-generated information from externally-derived information). Predictive coding models suggest that the experience of self-agency results from a minimal prediction error between the predicted sensory consequence of a self-generated action and the actual outcome. In other words, the experience of self-agency is thought to be driven by making reliable predictions about the expected outcomes of one's own actions. Most of the agency literature has focused on the motor system; here we present a novel viewpoint that examines agency from a different lens using distinct tasks of reality monitoring and speech monitoring. The self-prediction mechanism that leads to self-agency is necessary for reality monitoring in that self-predictions represent a critical precursor for the successful encoding and memory retrieval of one's own thoughts and actions during reality monitoring to enable accurate self-agency judgments (i.e., accurate identification of self-generated information). This self-prediction mechanism is also critical for speech monitoring where we continually compare auditory feedback (i.e., what we hear ourselves say) with what we expect to hear. Prior research has shown that the medial prefrontal cortex (mPFC) may represent one potential neural substrate of this self-prediction mechanism. Unfortunately, patients with schizophrenia (SZ) show mPFC hypoactivity associated with self-agency impairments on reality and speech monitoring tasks, as well as aberrant mPFC functional connectivity during intrinsic measures of agency during resting states that predicted worsening psychotic symptoms. Causal neurostimulation and neurofeedback techniques can move the frontiers of schizophrenia research into a new era where we implement techniques to manipulate excitability in key neural regions, such as the mPFC, to modulate patients' reliance on self-prediction mechanisms on distinct tasks of reality and speech monitoring. We hypothesize these findings will show that mPFC provides a unitary basis for self-agency, driven by reliance on self-prediction mechanisms, which will facilitate the development of new targeted treatments in patients with schizophrenia.

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