Department of Cardiology, Erasmus MC, University Medical Center Rotterdam, Rotterdam, the Netherlands.
Department of Cardiology, Erasmus MC, University Medical Center Rotterdam, Rotterdam, the Netherlands; Department of Biostatistics, Erasmus MC, University Medical Center Rotterdam, Rotterdam, the Netherlands.
Int J Cardiol. 2022 Oct 1;364:77-84. doi: 10.1016/j.ijcard.2022.06.020. Epub 2022 Jun 15.
This study aimed to identify heart failure (HF) subphenotypes using 92 repeatedly measured circulating proteins in 250 patients with heart failure with reduced ejection fraction, and to investigate their clinical characteristics and prognosis.
Clinical data and blood samples were collected tri-monthly until the primary endpoint (PEP) or censoring occurred, with a maximum of 11 visits. The Olink Cardiovascular III panel was measured in baseline samples and the last two samples before the PEP (in 66 PEP cases), or the last sample before censoring (in 184 PEP-free patients). The PEP comprised cardiovascular death, heart transplantation, Left Ventricular Assist Device implantation, and hospitalization for HF. Cluster analysis was performed on individual biomarker trajectories to identify subphenotypes. Then biomarker profiles and clinical characteristics were investigated, and survival analysis was conducted.
Clustering revealed three clinically diverse subphenotypes. Cluster 3 was older, with a longer duration of, and more advanced HF, and most comorbidities. Cluster 2 showed increasing levels over time of most biomarkers. In cluster 3, there were elevated baseline levels and increasing levels over time of 16 remaining biomarkers. Median follow-up was 2.2 (1.4-2.5) years. Cluster 3 had a significantly poorer prognosis compared to cluster 1 (adjusted event-free survival time ratio 0.25 (95%CI:0.12-0.50), p < 0.001). Repeated measurements clusters showed incremental prognostic value compared to clusters using single measurements, or clinical characteristics only.
Clustering based on repeated biomarker measurements revealed three clinically diverse subphenotypes, of which one has a significantly worse prognosis, therefore contributing to improved (individualized) prognostication.
本研究旨在通过对 250 例射血分数降低的心力衰竭患者的 92 种循环蛋白进行重复测量,确定心力衰竭亚表型,并探讨其临床特征和预后。
收集临床数据和血液样本,每三个月采集一次,直至主要终点(PEP)或截止时间发生,最多采集 11 次。在基线样本和 PEP 前的最后两次样本(在 66 例 PEP 病例中)或截止前的最后一次样本(在 184 例无 PEP 患者中)测量 Olink 心血管 III 面板。对个体生物标志物轨迹进行聚类分析,以确定亚表型。然后调查生物标志物特征和临床特征,并进行生存分析。
聚类分析显示出三种具有不同临床特征的亚表型。亚表型 3 年龄较大,心力衰竭持续时间较长,病情更严重,合并症更多。亚表型 2 随着时间的推移,大多数生物标志物水平呈上升趋势。在亚表型 3 中,有 16 种剩余生物标志物的基线水平较高,且随时间呈上升趋势。中位随访时间为 2.2(1.4-2.5)年。与亚表型 1 相比,亚表型 3 的预后明显较差(调整后的无事件生存时间比值为 0.25(95%CI:0.12-0.50),p<0.001)。与使用单次测量或临床特征仅进行聚类相比,重复测量聚类显示出增量预后价值。
基于重复生物标志物测量的聚类分析显示出三种具有不同临床特征的亚表型,其中一种亚表型的预后明显较差,因此有助于改善(个体化)预后。
