新型多路复用血浆生物标记物面板对肥厚型心肌病儿童具有诊断和预后潜力

IF 6 2区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Gabriella Captur, Ivan Doykov, Sheng-Chia Chung, Ella Field, Annabelle Barnes, Enpei Zhang, Imogen Heenan, Gabrielle Norrish, James C Moon, Perry M Elliott, Wendy E Heywood, Kevin Mills, Juan Pablo Kaski
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引用次数: 0

摘要

背景:肥厚型心肌病(HCM)的临床定义是病理性左心室肥厚。我们之前开发了一个血浆蛋白质组学生物标记物面板,该面板与肥厚性心肌病成人患者的疾病严重程度和心脏性猝死风险的临床标记物相关。本研究的目的是调查成人生物标志物的效用,并对儿童期发病的 HCM 进行蛋白质组学研究:从 HCM 儿童的探索性血浆蛋白质组学筛选中确定了 59 个蛋白质生物标志物,并将其添加到我们现有的基于多重靶向液相色谱-串联/质谱分析法中。我们在从 148 名 HCM 患儿和 50 名健康对照者收集的血浆中对这些生物标记物与临床表型和结果的关联进行了前瞻性测试。利用机器学习技术开发了新型儿科血浆蛋白质组生物标志物面板:结果:先前确定的四个成人 HCM 标志物(果糖二磷酸醛缩酶 A、补体 C3a、talin-1 和 thrombospondin 1)和三个新标志物(糖原磷酸化酶 B、脂蛋白 a 和 profilin 1)在小儿 HCM 中升高。通过对训练队列(n=137)和验证队列(n=61)进行有监督的机器学习,该 7 个生物标记物面板可将 HCM 与健康对照组区分开来,训练数据集的曲线下面积为 1.0(灵敏度 100% [95% CI, 95-100];特异性 100% [95% CI, 96-100]),验证数据集的曲线下面积为 0.82(灵敏度 75% [95% CI, 59-86];特异性 88% [95% CI, 75-94])。在心脏性猝死高危儿童中发现的其他 4 种肽(载脂蛋白 L1、补体 5b、免疫球蛋白重常数ε和血清淀粉样蛋白 A4 肽)循环水平降低,可将其与低危和中危组完全区分开来,并预测死亡率和不良心律失常结果(危险比为 2.04 [95% CI, 1.0-4.2];P=0.044):结论:在儿童中,7 个生物标志物蛋白质组学面板能以较高的灵敏度和特异性将 HCM 与对照组区分开来,第二个 4 个生物标志物面板能识别不良心律失常结局(包括心脏性猝死)的高风险人群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel Multiplexed Plasma Biomarker Panel Has Diagnostic and Prognostic Potential in Children With Hypertrophic Cardiomyopathy.

Background: Hypertrophic cardiomyopathy (HCM) is defined clinically by pathological left ventricular hypertrophy. We have previously developed a plasma proteomics biomarker panel that correlates with clinical markers of disease severity and sudden cardiac death risk in adult patients with HCM. The aim of this study was to investigate the utility of adult biomarkers and perform new discoveries in proteomics for childhood-onset HCM.

Methods: Fifty-nine protein biomarkers were identified from an exploratory plasma proteomics screen in children with HCM and augmented into our existing multiplexed targeted liquid chromatography-tandem/mass spectrometry-based assay. The association of these biomarkers with clinical phenotypes and outcomes was prospectively tested in plasma collected from 148 children with HCM and 50 healthy controls. Machine learning techniques were used to develop novel pediatric plasma proteomic biomarker panels.

Results: Four previously identified adult HCM markers (aldolase fructose-bisphosphate A, complement C3a, talin-1, and thrombospondin 1) and 3 new markers (glycogen phosphorylase B, lipoprotein a and profilin 1) were elevated in pediatric HCM. Using supervised machine learning applied to training (n=137) and validation cohorts (n=61), this 7-biomarker panel differentiated HCM from healthy controls with an area under the curve of 1.0 in the training data set (sensitivity 100% [95% CI, 95-100]; specificity 100% [95% CI, 96-100]) and 0.82 in the validation data set (sensitivity 75% [95% CI, 59-86]; specificity 88% [95% CI, 75-94]). Reduced circulating levels of 4 other peptides (apolipoprotein L1, complement 5b, immunoglobulin heavy constant epsilon, and serum amyloid A4) found in children with high sudden cardiac death risk provided complete separation from the low and intermediate risk groups and predicted mortality and adverse arrhythmic outcomes (hazard ratio, 2.04 [95% CI, 1.0-4.2]; P=0.044).

Conclusions: In children, a 7-biomarker proteomics panel can distinguish HCM from controls with high sensitivity and specificity, and another 4-biomarker panel identifies those at high risk of adverse arrhythmic outcomes, including sudden cardiac death.

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来源期刊
Circulation: Genomic and Precision Medicine
Circulation: Genomic and Precision Medicine Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
9.20
自引率
5.40%
发文量
144
期刊介绍: Circulation: Genomic and Precision Medicine is a distinguished journal dedicated to advancing the frontiers of cardiovascular genomics and precision medicine. It publishes a diverse array of original research articles that delve into the genetic and molecular underpinnings of cardiovascular diseases. The journal's scope is broad, encompassing studies from human subjects to laboratory models, and from in vitro experiments to computational simulations. Circulation: Genomic and Precision Medicine is committed to publishing studies that have direct relevance to human cardiovascular biology and disease, with the ultimate goal of improving patient care and outcomes. The journal serves as a platform for researchers to share their groundbreaking work, fostering collaboration and innovation in the field of cardiovascular genomics and precision medicine.
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