Plasma microvesicle analysis identifies microRNA 129-5p as a biomarker of heart failure in univentricular heart disease.

Biomarkers of heart failure in adults have been extensively studied. However, biomarkers to monitor the progression of heart failure in children with univentricular physiology are less well understood. We proposed that as mediators of diverse pathophysiology, miRNAs contained within circulating microvesicles could serve as biomarkers for the presence and progression of heart failure in univentricular patients. To test this, we studied the association of heart failure with elevations in specific miRNAs isolated from circulating microvesicles in a cohort of children with univentricular heart disease and heart failure. We conducted a single site cross-sectional observational study of 71 children aged 1 month-7 years with univentricular heart disease and heart failure. We demonstrated that levels of miR129-5p isolated from plasma microvesicles were inversely related to the degree of clinical heart failure as assessed by Ross score. We then showed that miR129-5p levels are downregulated in HL1 cells and human embryonic stem cell-derived cardiomyocytes exposed to oxidative stress. We demonstrated that bone morphogenetic protein receptor 2, which has been implicated in the development of pulmonary vascular disease, is a target of miR129-5p, and conversely regulated in response to oxidative stress in cell culture. Levels of miR129-5p were inversely related to the degree of clinical heart failure in patients with univentricular heart disease. This study demonstrates that miR129-5p is a sensitive and specific biomarker for heart failure in univentricular heart disease independent of ventricular morphology or stage of palliation. Further study is warranted to understand the targets affected by miR129-5p with the development of heart failure in patients with univentricular physiology.

Usefulness of B-type natriuretic peptide and N-terminal pro-B-type natriuretic peptide as biomarkers for heart failure in young children with single ventricle congenital heart disease.

Children with single ventricle (SV) physiology have increased ventricular work and are at risk of heart failure (HF). However, a HF diagnosis is especially difficult, because few objective measures of HF have been validated in this cohort. We have previously shown that plasma B-type natriuretic peptide (BNP) levels are sensitive and specific for detecting HF in a small, heterogeneous SV cohort. The aim of the present study was to define the effect of SV morphology and stage of palliation on the correlation between BNP and HF. We also examined the utility of N-terminal pro-BNP (NT-proBNP), a more stable product of pre-BNP processing, as a biomarker of HF in these patients. A cross-sectional observational study of SV children aged 1 month to 7 years was conducted. The presence of HF was defined as a Ross score > 2. The association of BNP or NT-proBNP with HF was assessed using logistic regression analysis and receiver operating characteristic curves. Of the 71 included children, 22 (31%) had clinical HF. A doubling of BNP was associated with an odds ratio for HF of 2.20 (95% confidence interval 1.36 to 3.55, p = 0.001) with a c-statistic > 75%, yielding a detection threshold of ≥ 45 pg/ml. This threshold was preserved when patients were stratified by the right ventricular morphology or stage of surgical palliation. Similarly, a doubling of NT-proBNP was associated with an odds ratio for HF of 1.92 (95% confidence interval 1.17 to 3.14, p = 0.009). In contrast to BNP, the threshold value of NT-proBNP for predicting HF decreased with the stage of palliation. In conclusion, plasma BNP and NT-proBNP are reliable tests for clinical HF in young children with SV physiology, specifically those with right ventricular morphology, regardless of the stage of palliation.