重度抑郁症中潜在抗抑郁反应的生物学特征分析:与(神经)炎症、脂肪酸代谢及杏仁核反应性的关联
Biological profiling of prospective antidepressant response in major depressive disorder: Associations with (neuro)inflammation, fatty acid metabolism, and amygdala-reactivity.
作者信息
Mocking R J T, Nap T S, Westerink A M, Assies J, Vaz F M, Koeter M W J, Ruhé H G, Schene A H
机构信息
Department of Psychiatry, Academic Medical Center, University of Amsterdam, The Netherlands.
Department of Psychiatry, Academic Medical Center, University of Amsterdam, The Netherlands.
出版信息
Psychoneuroendocrinology. 2017 May;79:84-92. doi: 10.1016/j.psyneuen.2017.02.019. Epub 2017 Feb 21.
BACKGROUND
A better understanding of factors underlying antidepressant non-response may improve the prediction of which patients will respond to what treatment. Major depressive disorder (MDD) is associated with alterations in fatty acid metabolism, (neuro)inflammation and amygdala-reactivity. However, their mutual relations, and the extent to which they are associated with prospective antidepressant-response, remain unknown.
PURPOSE
To test (I) alterations in (neuro)inflammation and its associations with fatty acid metabolism and amygdala-reactivity in MDD-patients compared to controls, and (II) whether these alterations are associated with prospective paroxetine response.
METHODS
We compared 70 unmedicated MDD-patients with 51 matched healthy controls at baseline, regarding erythrocyte membrane omega-6 arachidonic acid (AA), inflammation [serum (high-sensitivity) C-reactive protein (CRP)], and in a subgroup amygdala-reactivity to emotional faces using functional magnetic resonance imaging (fMRI) (N=42). Subsequently, we treated patients with 12 weeks paroxetine, and repeated baseline measures after 6 and 12 weeks to compare non-responders, early-responders (response at 6 weeks), and late-responders (response at 12 weeks).
RESULTS
Compared to controls, MDD-patients showed higher CRP (p=0.016) and AA (p=0.019) after adjustment for confounders at baseline. AA and CRP were mutually correlated (p=0.043). In addition, patients showed a more negative relation between AA and left amygdala-reactivity (p=0.014). Moreover, AA and CRP were associated with antidepressant-response: early responders showed lower AA (p=0.018) and higher CRP-concentrations (p=0.008) than non-responders throughout the study.
CONCLUSION
Higher observed CRP and AA, their mutual association, and relation with amygdala-reactivity, are corroborative with a role for (neuro)inflammation in MDD. In addition, observed associations of these factors with prospective antidepressant-response suggest a potential role as biomarkers. Future studies in independent samples are needed to replicate and test the clinical applicability of these biological predictors for treatment response to result in a precision/personalized medicine approach for treatment.
背景
更好地理解抗抑郁药无反应背后的因素,可能会改善对哪些患者对何种治疗有反应的预测。重度抑郁症(MDD)与脂肪酸代谢、(神经)炎症及杏仁核反应性改变有关。然而,它们之间的相互关系以及与预期抗抑郁反应的关联程度仍不清楚。
目的
测试(I)与对照组相比,MDD患者(神经)炎症的改变及其与脂肪酸代谢和杏仁核反应性的关联,以及(II)这些改变是否与帕罗西汀的预期反应相关。
方法
我们在基线时将70名未服药的MDD患者与51名匹配的健康对照进行比较,检测红细胞膜ω-6花生四烯酸(AA)、炎症指标[血清(高敏)C反应蛋白(CRP)],并在一个亚组中使用功能磁共振成像(fMRI)检测对情绪面孔的杏仁核反应性(N = 42)。随后,我们用帕罗西汀治疗患者12周,并在6周和12周后重复基线测量,以比较无反应者、早期反应者(6周时反应)和晚期反应者(12周时反应)。
结果
与对照组相比,在基线时调整混杂因素后,MDD患者的CRP(p = 0.016)和AA(p = 0.019)更高。AA与CRP相互关联(p = 0.043)。此外,患者中AA与左侧杏仁核反应性之间存在更负向的关系(p = 0.014)。而且,AA和CRP与抗抑郁反应相关:在整个研究中,早期反应者的AA低于无反应者(p = 0.018),CRP浓度高于无反应者(p = 0.008)。
结论
观察到的较高的CRP和AA、它们之间的相互关联以及与杏仁核反应性的关系,证实了(神经)炎症在MDD中的作用。此外,观察到这些因素与预期抗抑郁反应的关联表明它们可能作为生物标志物。需要在独立样本中进行进一步研究,以重复并测试这些生物学预测指标对治疗反应的临床适用性,从而实现精准/个性化的治疗方法。
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