静息杏仁核连接和基础交感神经活动作为慢性警觉过度的标志物。
Resting amygdala connectivity and basal sympathetic tone as markers of chronic hypervigilance.
机构信息
Hunter College, The City University of New York, 695 Park Avenue, New York, NY 10065, USA; The Graduate Center, The City University of New York, 365 Fifth Avenue, New York, NY 10016, USA.
Department of Radiology and Neurology, Columbia University, 622 W 168th St, New York, NY 10032, USA.
出版信息
Psychoneuroendocrinology. 2019 Apr;102:68-78. doi: 10.1016/j.psyneuen.2018.11.036. Epub 2018 Nov 26.
BACKGROUND
Chronic hypervigilance, a state of sustained alertness and hyperarousal in the absence of threat, has been shown to predict poorer clinical outcomes post-trauma. An exaggerated and persistent amygdala alerting response to affective information has been proposed as a reactivity-based, and thus indirect, marker of hypervigilance. However, because chronic hypervigilance is a persistent rather than reactive state, it should be directly observable under resting-state conditions without the need for exposure to affectively charged stimuli.
OBJECTIVE
We tested resting amygdala connectivity and basal sympathetic and hypothalamic-pituitary-adrenal axis activity as direct neural and neuroendocrine markers of chronic hypervigilance.
PARTICIPANTS
24 trauma-exposed women (age M = 22.9, SD = 5.5) and 20 no-trauma controls (age M = 21.1, SD = 3.2).
MEASURES
Amygdala connectivity was measured using functional magnetic resonance imaging at rest and during viewing of novel and familiar affective scenes. Elevated amygdala connectivity during the viewing of novel scenes (exaggerated alerting response) and familiar scenes (persistent alerting response) was used as a reactivity-based index of hypervigilance. Resting amygdala connectivity and basal salivary alpha-amylase (sAA) and cortisol were tested as neural and neuroendocrine markers of hypervigilance, respectively.
RESULTS
Compared to no-trauma controls, trauma-exposed women showed greater connectivity between the left amygdala and the ventral anterior cingulate cortex (vACC) both during affective processing and at rest. Exaggerated neural novelty response was associated with greater resting left amygdala-vACC connectivity and higher basal sAA, but not cortisol.
CONCLUSIONS
Greater synchronization of threat-detection circuitry in the absence of threat and basal sympathetic tone might serve as complementary resting-state markers of the cognitive and physiological components of chronic hypervigilance, respectively.
背景
慢性警觉过度是一种在没有威胁的情况下持续保持警觉和高度兴奋的状态,已被证明会预测创伤后更差的临床结果。有人提出,杏仁核对情感信息的反应过度和持续增强,是警觉过度的一种基于反应的间接标志物。然而,由于慢性警觉过度是一种持续的状态,而不是反应性的状态,因此在没有接触到情感刺激的情况下,它应该可以在静息状态下直接观察到。
目的
我们测试了静息状态下杏仁核的连接以及基础交感神经和下丘脑-垂体-肾上腺轴的活性,作为慢性警觉过度的直接神经和神经内分泌标志物。
参与者
24 名创伤暴露的女性(年龄 M=22.9,SD=5.5)和 20 名无创伤对照(年龄 M=21.1,SD=3.2)。
测量
使用功能磁共振成像在静息状态和观看新的和熟悉的情感场景时测量杏仁核的连接。观看新场景(过度警觉反应)和熟悉场景(持续警觉反应)时杏仁核连接的增加被用作警觉过度的反应性指标。静息状态下的杏仁核连接以及基础唾液α-淀粉酶(sAA)和皮质醇分别作为警觉过度的神经和神经内分泌标志物进行测试。
结果
与无创伤对照组相比,创伤暴露的女性在处理情感和静息状态时,左侧杏仁核与腹侧前扣带回(vACC)之间的连接都更强。神经对新奇的反应过度与静息时左侧杏仁核-vACC 连接增强和基础 sAA 升高有关,但与皮质醇无关。
结论
威胁检测回路在没有威胁和基础交感神经活动的情况下的同步增强可能分别作为慢性警觉过度的认知和生理成分的补充静息状态标志物。
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