Galenko Oxana, Jacobs Victoria, Knight Stacey, Taylor Madisyn, Cutler Michael J, Muhlestein Joseph B, Carlquist John L, Knowlton Kirk U, Jared Bunch T
Intermountain Medical Center Heart Institute, Murray, UT, USA.
Department of Internal Medicine, University of Utah, Salt Lake City, UT, USA.
J Interv Card Electrophysiol. 2019 Sep;55(3):297-305. doi: 10.1007/s10840-018-0495-z. Epub 2019 Jan 3.
MicroRNAs (miRNA)s regulate expression of genes involved in various processes including cardiac automaticity, conduction, excitability, and fibrosis and therefore may provide a diagnostic utility to identify high-risk patients for atrial fibrillation (AF). In this study, we tested the hypothesis that specific profiles of circulating miRNAs can identify patients with AF and can also help to identify patients at high risk of AF recurrence after ablation.
Two patient populations were studied: 140 AF cases (93 paroxysmal and 47 persistent) and 50 healthy controls, and 141 AF ablation cases with (n = 86) and without (n = 55) 1-year recurrence. Assessment of several previously identified AF-associated plasma miRNAs (21, 29a, 133a, 133b, 150, 328) was performed with TaqMan assays, using synthetic miRNAs as standards.
The AF cases compared to the healthy controls were older and were more often male and hypertensive. After multivariate adjustment, higher miRNA-21 levels significantly decreased the risk of AF (OR = 0.93 per fmol/μl (95% CI = 0.89-0.98, p = 0.007)). There were no significant differences in circulating miRNAs between the AF subtypes of persistent and paroxysmal. Among the AF ablation cases, miRNA-150 was lower for those with AF recurrences at 1 year (adjusted OR = 0.98 per 500,000 fmol/μl; 95% CI = 0.965, 0.998; p = 0.039).
Decreased circulating miRNA-21 is associated with AF, but not with AF subtypes, suggestive that molecular mechanisms responsible for the onset and progression of the AF may be different. Circulating miRNA-150 was significantly associated with a reduction in 1-year AF recurrence post ablation suggestive of adverse structural and electrical remodeling as recurrence mechanisms.
微小RNA(miRNA)可调节参与包括心脏自律性、传导性、兴奋性和纤维化等各种过程的基因表达,因此可能为识别心房颤动(AF)高危患者提供诊断效用。在本研究中,我们检验了以下假设:循环miRNA的特定谱可识别AF患者,也有助于识别消融术后AF复发高危患者。
研究了两个患者群体:140例AF病例(93例阵发性和47例持续性)和50例健康对照,以及141例有(n = 86)和无(n = 55)1年复发的AF消融病例。使用TaqMan分析,以合成miRNA作为标准,对几种先前确定的与AF相关的血浆miRNA(21、29a、133a、133b、150、328)进行评估。
与健康对照相比,AF病例年龄更大,男性和高血压患者更常见。多变量调整后,较高的miRNA-21水平显著降低了AF风险(每fmol/μl的OR = 0.93(95%CI = 0.89-0.98,p = 0.007))。持续性和阵发性AF亚型之间的循环miRNA无显著差异。在AF消融病例中,1年时有AF复发的患者miRNA-150较低(调整后的OR = 每500,000 fmol/μl为0.98;95%CI = 0.965,0.998;p = 0.039)。
循环miRNA-21降低与AF相关,但与AF亚型无关,提示导致AF发生和进展的分子机制可能不同。循环miRNA-150与消融术后1年AF复发减少显著相关,提示不良结构和电重构是复发机制。
