Department of Psychiatry, NYU Grossman School of Medicine, New York, NY, USA.
Curr Top Behav Neurosci. 2023;64:353-387. doi: 10.1007/7854_2023_442.
Neuroscience and neuroimaging research have now identified brain nodes that are involved in the acquisition, storage, and expression of conditioned fear and its extinction. These brain regions include the ventromedial prefrontal cortex (vmPFC), dorsal anterior cingulate cortex (dACC), amygdala, insular cortex, and hippocampus. Psychiatric neuroimaging research shows that functional dysregulation of these brain regions might contribute to the etiology and symptomatology of various psychopathologies, including anxiety disorders and post traumatic stress disorder (PTSD) (Barad et al. Biol Psychiatry 60:322-328, 2006; Greco and Liberzon Neuropsychopharmacology 41:320-334, 2015; Milad et al. Biol Psychiatry 62:1191-1194, 2007a, Biol Psychiatry 62:446-454, b; Maren and Quirk Nat Rev Neurosci 5:844-852, 2004; Milad and Quirk Annu Rev Psychol 63:129, 2012; Phelps et al. Neuron 43:897-905, 2004; Shin and Liberzon Neuropsychopharmacology 35:169-191, 2009). Combined, these findings indicate that targeting the activation of these nodes and modulating their functional interactions might offer an opportunity to further our understanding of how fear and threat responses are formed and regulated in the human brain, which could lead to enhancing the efficacy of current treatments or creating novel treatments for PTSD and other psychiatric disorders (Marin et al. Depress Anxiety 31:269-278, 2014; Milad et al. Behav Res Ther 62:17-23, 2014). Device-based neuromodulation techniques provide a promising means for directly changing or regulating activity in the fear extinction network by targeting functionally connected brain regions via stimulation patterns (Raij et al. Biol Psychiatry 84:129-137, 2018; Marković et al. Front Hum Neurosci 15:138, 2021). In the past ten years, notable advancements in the precision, safety, comfort, accessibility, and control of administration have been made to the established device-based neuromodulation techniques to improve their efficacy. In this chapter we discuss ten years of progress surrounding device-based neuromodulation techniques-Electroconvulsive Therapy (ECT), Transcranial Magnetic Stimulation (TMS), Magnetic Seizure Therapy (MST), Transcranial Focused Ultrasound (TUS), Deep Brain Stimulation (DBS), Vagus Nerve Stimulation (VNS), and Transcranial Electrical Stimulation (tES)-as research and clinical tools for enhancing fear extinction and treating PTSD symptoms. Additionally, we consider the emerging research, current limitations, and possible future directions for these techniques.
神经科学和神经影像学研究已经确定了涉及条件性恐惧的获得、存储和表达及其消退的大脑节点。这些大脑区域包括腹内侧前额叶皮层(vmPFC)、背侧前扣带皮层(dACC)、杏仁核、岛叶和海马体。精神神经影像学研究表明,这些大脑区域的功能失调可能导致各种精神病理学的病因和症状,包括焦虑障碍和创伤后应激障碍(PTSD)(Barad 等人,《生物精神病学》60:322-328, 2006; Greco 和 Liberzon《神经精神药理学》41:320-334, 2015; Milad 等人,《生物精神病学》62:1191-1194, 2007a, 《生物精神病学》62:446-454, b; Maren 和 Quirk《自然评论神经科学》5:844-852, 2004; Milad 和 Quirk《年度评论心理学》63:129, 2012; Phelps 等人,《神经元》43:897-905, 2004; Shin 和 Liberzon《神经精神药理学》35:169-191, 2009)。综合来看,这些发现表明,靶向这些节点的激活并调节它们的功能相互作用可能为进一步了解人类大脑中恐惧和威胁反应的形成和调节提供机会,这可能导致增强当前治疗方法的疗效或为 PTSD 和其他精神障碍创造新的治疗方法(Marin 等人,《抑郁与焦虑》31:269-278, 2014; Milad 等人,《行为研究与治疗》62:17-23, 2014)。基于设备的神经调节技术通过刺激模式为靶向功能连接的大脑区域提供了一种有前途的方法,为直接改变或调节恐惧消退网络中的活动提供了可能性(Raij 等人,《生物精神病学》84:129-137, 2018; Marković 等人,《前沿人类神经科学》15:138, 2021)。在过去的十年中,为了提高基于设备的神经调节技术的疗效,在精确性、安全性、舒适性、可及性和管理控制方面取得了显著进展。在本章中,我们讨论了围绕基于设备的神经调节技术——电惊厥疗法(ECT)、经颅磁刺激(TMS)、磁惊厥疗法(MST)、经颅聚焦超声(TUS)、深部脑刺激(DBS)、迷走神经刺激(VNS)和经颅电刺激(tES)——作为增强恐惧消退和治疗 PTSD 症状的研究和临床工具的十年进展。此外,我们还考虑了这些技术的新兴研究、当前局限性和可能的未来方向。
