心脏磁共振成像得出的主动脉僵硬度与射血分数保留型心力衰竭早期阶段和进展的关系

IF 3.8 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Radiology. Cardiothoracic imaging Pub Date : 2024-08-01 DOI:10.1148/ryct.230344
Alexander Schulz, Isabel N Schellinger, Sören J Backhaus, Ansgar S Adler, Torben Lange, Ruben Evertz, Johannes T Kowallick, Annett Hoffmann, Christian Matek, Philip S Tsao, Gerd Hasenfuß, Uwe Raaz, Andreas Schuster
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引用次数: 0

摘要

目的 研究心脏磁共振成像检测到的主动脉僵化是否是射血分数保留型心力衰竭(HFpEF)发生和发展的早期现象。材料和方法 进行了临床和临床前研究。临床研究是对前瞻性 HFpEF 压力试验(2017 年 8 月至 2019 年 9 月)的二次分析,包括 48 名参与者(中位年龄 69 岁[范围 65-73 岁];33 名女性,15 名男性),他们患有非心源性呼吸困难(NCD,n = 21)、静息时明显的 HFpEF(肺毛细血管楔压 [PCWP] ≥ 15 mm Hg,n = 14),以及根据右心导管检查在运动负荷时诊断出的静息时掩蔽性 HFpEF(PCWP ≥ 25 mm Hg,n = 13)。此外,所有参与者都在静息状态和运动负荷时接受了超声心动图和心脏核磁共振成像检查。计算了主动脉脉搏波速度(PWV)。机理临床前研究描述了具有诱导动脉僵化的转基因小鼠(Runx2-smTg 小鼠)的心脏功能和结构。统计分析包括非参数和参数比较、斯皮尔曼相关性和逻辑回归模型。结果 HFpEF 参与者的脉搏波速度增加(NCD vs masked HFpEF:7.0 米/秒[IQR:5.0-9.5 米/秒] vs 10.0 米/秒[IQR:8.0-13.4 米/秒],P = .005;NCD vs 明显 HFpEF:7.0 米/秒[IQR:5.0-9.5 米/秒] vs 10.0 米/秒[IQR:8.0-13.4 米/秒],P = .0057.0米/秒 [IQR:5.0-9.5米/秒] vs 11.0米/秒 [IQR:7.5-12.0米/秒],P = .01)。脉搏波速度增加与较高的 PCWP(P = .006)、左心房和左心室长轴应变(均 P < .02)以及 N 端前脑钠肽水平(P < .001)相关。显性 HFpEF 患者的心肌纤维化程度较高,表现为原生 T1 时间增加(1199 毫秒 [IQR: 1169-1228 毫秒] vs 1234 毫秒 [IQR: 1208-1255 毫秒],P = .009)。在多变量分析中,主动脉僵化与 HFpEF 独立相关(几率比为 1.31;P = .049)。与野生型对照组相比,Runx2-smTG 小鼠表现出 "HFpEF "表型,左心室折返缩短率保持不变,但舒张早期和舒张晚期二尖瓣环速度小于 1(平均值,0.67 ± 0.39 [平均值标准误差] vs 1.45 ± 0.47;P = .004),心肌胶原沉积增加(平均值,11% ± 1 vs 2% ± 1;P < .001),脑钠肽水平增加(平均值,171 pg/mL ± 23 vs 101 pg/mL ± 10;P < .001)。结论 本研究提供了转化证据,表明动脉僵化的增加可能与高频心衰的发生和发展有关,并有助于其早期检测。关键词磁共振功能成像 磁共振成像 动物研究 心脏 主动脉 心脏 ClinicalTrials.gov identifier NCT03260621 本文有补充材料。© RSNA, 2024.
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Association of Cardiac MRI-derived Aortic Stiffness with Early Stages and Progression of Heart Failure with Preserved Ejection Fraction.

Purpose To investigate if aortic stiffening as detected with cardiac MRI is an early phenomenon in the development and progression of heart failure with preserved ejection fraction (HFpEF). Materials and Methods Both clinical and preclinical studies were performed. The clinical study was a secondary analysis of the prospective HFpEF stress trial (August 2017 through September 2019) and included 48 participants (median age, 69 years [range, 65-73 years]; 33 female, 15 male) with noncardiac dyspnea (NCD, n = 21), overt HFpEF at rest (pulmonary capillary wedge pressure [PCWP] ≥ 15 mm Hg, n = 14), and masked HFpEF at rest diagnosed during exercise stress (PCWP ≥ 25 mm Hg, n = 13) according to right heart catheterization. Additionally, all participants underwent echocardiography and cardiac MRI at rest and during exercise stress. Aortic pulse wave velocity (PWV) was calculated. The mechanistic preclinical study characterized cardiac function and structure in transgenic mice with induced arterial stiffness (Runx2-smTg mice). Statistical analyses comprised nonparametric and parametric comparisons, Spearman correlations, and logistic regression models. Results Participants with HFpEF showed increased PWV (NCD vs masked HFpEF: 7.0 m/sec [IQR: 5.0-9.5 m/sec] vs 10.0 m/sec [IQR: 8.0-13.4 m/sec], P = .005; NCD vs overt HFpEF: 7.0 m/sec [IQR: 5.0-9.5 m/sec] vs 11.0 m/sec [IQR: 7.5-12.0 m/sec], P = .01). Increased PWV correlated with higher PCWP (P = .006), left atrial and left ventricular long-axis strain (all P < .02), and N-terminal pro-brain natriuretic peptide levels (P < .001). Participants with overt HFpEF had higher levels of myocardial fibrosis, as demonstrated by increased native T1 times (1199 msec [IQR: 1169-1228 msec] vs 1234 msec [IQR: 1208-1255 msec], P = .009). Aortic stiffness was independently associated with HFpEF on multivariable analyses (odds ratio, 1.31; P = .049). Runx2-smTG mice exhibited an "HFpEF" phenotype compared with wild-type controls, with preserved left ventricular fractional shortening but an early and late diastolic mitral annulus velocity less than 1 (mean, 0.67 ± 0.39 [standard error of the mean] vs 1.45 ± 0.47; P = .004), increased myocardial collagen deposition (mean, 11% ± 1 vs 2% ± 1; P < .001), and increased brain natriuretic peptide levels (mean, 171 pg/mL ± 23 vs 101 pg/mL ± 10; P < .001). Conclusion This study provides translational evidence that increased arterial stiffness might be associated with development and progression of HFpEF and may facilitate its early detection. Keywords: MR Functional Imaging, MR Imaging, Animal Studies, Cardiac, Aorta, Heart ClinicalTrials.gov identifier NCT03260621 Supplemental material is available for this article. © RSNA, 2024.

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