Abstract

Background and Objective: Heart transplantation is a recognized treatment for pediatric severe heart failure, but long-term issues necessitate alternative treatments. Some dilated cardiomyopathy (DCM) cases show left ventricular function recovery after LVAD implantation. This occurrence could lead to new treatments, but mechanisms are unclear. This study explores preoperative molecular factors interacting with LVAD's effects using single-cell transcriptomics on clinical samples. Methods: Twenty-five pediatric DCM patients underwent Berlin Heart EXCOR (BHE) implantation at our institution since 2013. Those with left ventricular ejection fraction (LVEF) improving by >20% were in the Recovery group (R), others in Non-Recovery (NR). Single-cell RNA-sequence was performed on myocardial tissue from six patients (three per group). Differential gene expression and pathway analysis were conducted for each cell type. Findings were validated by comparing them with histological evaluation or clinical examination in all 25 cases. Results: R: 10 patients; NR: 15. R's weight was 6.3 kg, NR's 9.9 kg (p=0.049); LVEF: R 23%, NR 16.5% (p=0.61). In pseudobulk analysis of cardiomyocytes, upregulated genes in R included NPPB, MYL7, PCDH9. KEGG analysis indicated activation of Tight Junction and ECM receptor pathways in R. In fibroblasts, major extracellular matrix proteins were higher in R, GSL gene expression in NR. Plasma Brain Natriuretic Peptide (BNP) at BHE implantation was significantly higher in R; 2913 [1836-3990 (95% CI)] vs 1278 [667-1888] pg/ml (Image1,2). No differences in tissue fibrosis rates were found between the groups. Conclusion: Alterations in gene expression patterns in some cell clusters, including cardiomyocytes, may contribute to left ventricular function recovery post-BHE implantation in pediatric DCM patients. Plasma BNP levels correlated with gene expression alterations, suggesting both a potentially protective effect on cardiomyocytes and a useful marker of LV functional recovery. Further validation of these candidate genes may elucidate intracellular molecular mechanisms.

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