Department of Psychology and Neuroscience, Baylor University, Waco, Texas.
Department of Psychology, University of Pittsburgh, Pittsburgh, Pennsylvania.
Psychophysiology. 2019 Nov;56(11):e13445. doi: 10.1111/psyp.13445. Epub 2019 Aug 3.
The ventromedial prefrontal cortex (vmPFC) integrates sensory, affective, memory-related, and social information from diverse brain systems to coordinate behavioral and peripheral physiological responses according to contextual demands that are appraised as stressful. However, the functionality of the vmPFC during stressful experiences is not fully understood. Among 40 female participants, the present study evaluated (a) functional connectivity of the vmPFC during exposure to and recovery following an acute psychological stressor, (b) associations among vmPFC functional connectivity, heart rate, and subjective reports of stress across individuals, and (c) whether patterns of vmPFC functional connectivity were associated with distributed brain networks. Results showed that psychological stress increased vmPFC functional connectivity with individual brain areas implicated in stressor processing (e.g., insula, amygdala, anterior cingulate cortex) and decreased connectivity with the posterior cingulate cortex and thalamus. There were no statistical differences in vmPFC connectivity to individual brain areas during recovery, as compared with baseline. Spatial similarity analyses revealed stressor-evoked increased connectivity of the vmPFC with the so-called dorsal attention, ventral attention, and frontoparietal networks, as well as decreased connectivity with the default mode network. During recovery, vmPFC connectivity increased with the frontoparietal network. Finally, individual differences in heart rate and perceived stress were associated with vmPFC connectivity to the ventral attention, frontoparietal, and default mode networks. Psychological stress appears to alter network-level functional connectivity of the vmPFC in a manner that further relates to individual differences in stressor-evoked cardiovascular and affective reactivity.
腹内侧前额叶皮层(vmPFC)整合来自不同大脑系统的感觉、情感、记忆相关和社会信息,根据被评估为压力的上下文需求协调行为和外周生理反应。然而,vmPFC 在应激体验中的功能尚不完全清楚。在 40 名女性参与者中,本研究评估了(a)vmPFC 在暴露于急性心理应激源和恢复期间的功能连接,(b)个体之间 vmPFC 功能连接、心率和主观压力报告之间的关联,以及(c)vmPFC 功能连接模式是否与分布式大脑网络相关。结果表明,心理应激增加了 vmPFC 与个体大脑区域的功能连接,这些区域与应激处理有关(例如,岛叶、杏仁核、前扣带回皮质),并减少了与后扣带回皮质和丘脑的连接。与基线相比,在恢复期间,vmPFC 与个体大脑区域的连接没有统计学差异。空间相似性分析显示,vmPFC 在应激时与所谓的背侧注意、腹侧注意和额顶网络的连接增加,与默认模式网络的连接减少。在恢复期间,vmPFC 与额顶网络的连接增加。最后,心率和感知压力的个体差异与 vmPFC 与腹侧注意、额顶和默认模式网络的连接有关。心理应激似乎以一种进一步与应激引起的心血管和情感反应的个体差异相关的方式改变 vmPFC 的网络水平功能连接。