Department of Psychiatry, SUNY Downstate Medical Center, Brooklyn, NY, USA.
Yale Depression Research Program, New Haven, CT, USA.
J Affect Disord. 2018 Mar 15;229:1-13. doi: 10.1016/j.jad.2017.12.001. Epub 2017 Dec 12.
The neurometabolism underlying the cognitive and affective symptoms associated with generalized anxiety disorder (GAD) remain poorly understood. After we have linked worry to intelligence in patients with GAD, we hypothesized that aberrant neurometabolic correlations between hippocampus and neocortical regions may underlie a shared substrate in GAD patients for both anxiety sensitivity and intelligence.
GAD patients (n = 16; F = 11) and healthy volunteers (n = 16; F = 10) were assessed using H-MRSI. Co-axial planes I [hippocampus (HIPP)] and co-axial plane III [dorsolateral prefrontal cortex (DLPFC), central gyrus (CG)] were examined. Using general linear models, we examined resting metabolite concentrations using HIPP as a hub to CG and DLPFC. Neocortical ROIs were related to Anxiety Sensitivity Index (ASI) and Full Scale IQ (FSIQ) in GAD patients versus controls.
Right hippocampal Cho/Cr directly predicted left DLPFC Cho/Cr in GAD (r = 0.75), an effect distinguishable (p = 0.0004) from controls. Left HIPP Cho/Cr positively predicted left CG Cho/Cr in GAD, an effect distinguishable from controls. In patients, both left and right DLPFC Cho/Cr positively predicted ASI but only left DLPFC Cho/Cr inversely predicted IQ. By contrast, IQ in controls correlated directly with left CG Cho/Cr.
Small sample size precluded us from investigating how gender and FSIQ subscales related to neurochemical correlations in the ROIs examined.
Aberrant resting state neurochemical correlation between left DLPFC and right HIPP may contribute to GAD symptomatology. Unlike controls, in GAD, IQ and worry may share a common yet inverse neurometabolic substrate in left DLPFC.
广泛性焦虑障碍(GAD)相关认知和情感症状的神经代谢仍知之甚少。在我们将担忧与 GAD 患者的智力联系起来之后,我们假设海马体和新皮质区域之间异常的神经代谢相关性可能是 GAD 患者焦虑敏感性和智力的共同基础。
GAD 患者(n = 16;F = 11)和健康志愿者(n = 16;F = 10)接受 H-MRSI 评估。共轴平面 I [海马体(HIPP)]和共轴平面 III [背外侧前额叶皮层(DLPFC),中央回(CG)]进行了检查。使用一般线性模型,我们使用 HIPP 作为 CG 和 DLPFC 的枢纽来检查静息代谢物浓度。在 GAD 患者与对照组中,新皮层 ROI 与焦虑敏感指数(ASI)和全量表智商(FSIQ)相关。
右侧海马体 Cho/Cr 直接预测 GAD 中左侧 DLPFC Cho/Cr(r = 0.75),这一效应可与对照组区分开来(p = 0.0004)。左侧 HIPP Cho/Cr 与 GAD 中左侧 CG Cho/Cr 呈正相关,这一效应可与对照组区分开来。在患者中,左右 DLPFC Cho/Cr 均与 ASI 呈正相关,但只有左侧 DLPFC Cho/Cr 与 IQ 呈负相关。相比之下,对照组的 IQ 与左侧 CG Cho/Cr 直接相关。
样本量小,使我们无法研究性别和 FSIQ 子量表如何与所检查的 ROI 中的神经化学相关性相关。
左侧 DLPFC 和右侧 HIPP 之间静息状态神经化学相关性的异常可能导致 GAD 症状。与对照组不同,在 GAD 中,IQ 和担忧可能在左侧 DLPFC 中具有共同但相反的神经代谢基础。
