👤 Joel Van De Graaff

Cascade screening can identify individuals with elevated lipoprotein(a) [Lp(a)], a causal risk factor for atherosclerotic cardiovascular disease (ASCVD). The aim of this study is to explore the effectiveness of cascade screening with asymptomatic children as index cases to identify family members with elevated Lp(a). In this retrospective study we used our database consisting of all children referred for a tentative diagnosis of hereditary dyslipidemia to the Amsterdam University Medical Centers pediatric lipid clinic (1989-2023). Elevated Lp(a) was defined as ≥30 mg/dL or ≥75 nmol/L. We evaluated two cascade screening approaches (opportunistic and systematic), calculated the number needed to screen (NNS) and repeated the analysis exclusively in children with FH as subgroup with particularly high cardiovascular risk. A total of 1,931 children were included (732 indexes, mean age (SD) 11.7 (4.5) years; 1,199 relatives, mean age (SD) 10.1 (4.4) years). In total, 480 (25%) of all children had elevated Lp(a) concentrations (≥30 mg/dL or ≥75 nmol/L). Both opportunistic (732 indexes) and systematic (316 indexes) cascade screening identified relatives with elevated Lp(a). The NNS was of 3.7 (95% CI 3.3-4.3) for the systematic approach and 4.1 (95% CI 3.8-4.6) for the opportunistic approach. In the FH subgroup, NNS were 3.9 (95% CI 3.4-4.5) and 4.3 (95% CI 3.9-4.8), respectively. Our findings suggest that cascade screening using children as index cases is an effective strategy to identify asymptomatic relatives at risk. Cardiovascular risk assessment should include Lp(a), especially in patients with FH who face an even higher cardiovascular risk. Until effective therapies become available, management should focus on modifiable risk factors. Show less

Though interstitial lung disease (ILD) contributes to excess morbidity and mortality in rheumatoid arthritis (RA), RA-ILD pathogenesis remains incompletely defined. As intermediate, non-classical and suppressed CD14+ monocytes are expanded in RA-ILD, this study sought to characterize gene expression profiles of circulating monocytes in RA-ILD. Peripheral blood mononuclear cells were collected from patients with RA without lung disease (n = 5), RA-ILD (n = 5), idiopathic pulmonary fibrosis (IPF; n = 5), and controls without lung and autoimmune disease (n = 4). RNA was extracted from CD14+ isolated monocytes and subjected to transcriptional analysis of 1365 genes. Gene enrichment and pathway analyses were performed. Unsupervised clustering grouped patients with RA-ILD together with IPF for myeloid innate genes. For fibrosis genes, patients with RA-ILD clustered independent of comparator groups. There were 103, 66 and 64 upregulated and 66, 14 and 25 downregulated genes for RA-ILD, RA, and IPF, vs controls, respectively. For RA-ILD, there was increased expression of genes involved in regulating inflammation and fibrosis (SOCS3, CECAM1, LTB4R2, CLEC7A, IRF7, PHYKPL, GBP5, RAPGEF), epigenetic modification (KDM5D, KMT2D, OGT) and macrophage activation. Top canonical pathways included macrophage differentiation-activation, IL-12, neuroinflammatory, glucocorticoid receptor and IL-27 signalling. Circulating monocytes in RA-ILD patients demonstrate unique gene expression profiles, with innate immune gene features more aligned with IPF as opposed to RA in the absence of clinical lung disease, and with fibrosis gene expression that was distinct from RA and IPF. These studies are important for understanding disease pathogenesis and may provide information for future therapeutic targets in RA-ILD. Show less