Lipoprotein(a) (Lp[a]) is an established predictor of cardiovascular risk but associations with secondary events are less certain, and data on understudied ethnic groups are scarce. This study aimed t Show more
Lipoprotein(a) (Lp[a]) is an established predictor of cardiovascular risk but associations with secondary events are less certain, and data on understudied ethnic groups are scarce. This study aimed to assess the association between Lp(a) and secondary events and explore variation in Lp(a) levels by ethnicity in first-time acute coronary syndrome (ACS) patients, to inform future risk prediction models. The Multi-Ethnic New Zealand Study of Acute Coronary Syndromes (MENZACS) is a longitudinal multi-centre cohort study of 1900 patients enrolled during their ACS admission. Baseline plasma Lp(a) concentrations were measured using an isoform-insensitive assay measured in nmol/L. The primary outcome was a composite of all-cause mortality or cardiovascular readmission, ascertained through national health datasets. Cox regression models were used to assess the association between Lp(a) levels and outcomes, adjusted for clinical risk factors. The mean age was 61 years, 20 % were female, and 73 % were European, 14 % Māori, 5 % Pacific peoples, 4 % Indian and 3 % other ethnicities. Of 1890 alive at discharge, 493 (26 %) experienced the primary outcome over a median follow-up of 4.9 years. Higher Lp(a) levels were associated with increased risk of secondary events. Compared to the lowest quartile (≤7 nmol/L), the adjusted hazard ratio for the highest quartile (>92 nmol/L) was 1.46 (95 %CI 1.12-1.89, p = 0.004). In this ACS cohort, Lp(a) concentrations varied by ethnicity, being highest amongst Indian participants (median 27 nmol/L) and lowest amongst Māori participants (median 12 nmol/L). Elevated Lp(a) concentrations are associated with secondary events following ACS. Further research is needed to define optimal thresholds for increased risk and explore ethnic-specific implications for secondary prevention. Show less
Individuals born very low birthweight (VLBW) are at increased risk of impaired cardiovascular and respiratory function in adulthood. To identify markers to predict future risk for VLBW individuals, we Show more
Individuals born very low birthweight (VLBW) are at increased risk of impaired cardiovascular and respiratory function in adulthood. To identify markers to predict future risk for VLBW individuals, we analyzed DNA methylation at birth and at 28 years in the New Zealand (NZ) VLBW cohort (all infants born < 1500 g in NZ in 1986) compared with age-matched, normal birthweight controls. Associations between neonatal methylation and cardiac structure and function (echocardiography), vascular function and respiratory outcomes at age 28 years were documented. Genomic DNA from archived newborn heel-prick blood (n = 109 VLBW, 51 controls) and from peripheral blood at ~ 28 years (n = 215 VLBW, 96 controls) was analyzed on Illumina Infinium MethylationEPIC 850 K arrays. Following quality assurance and normalization, methylation levels were compared between VLBW cases and controls at both ages by linear regression, with genome-wide significance set to p < 0.05 adjusted for false discovery rate (FDR, Benjamini-Hochberg). In neonates, methylation at over 16,400 CpG methylation sites differed between VLBW cases and controls and the canonical pathway most enriched for these CpGs was Cardiac Hypertrophy Signaling (p = 3.44E These findings suggest that methylation patterns in VLBW neonates may be informative about future adult cardiovascular and respiratory outcomes and have value in guiding early preventative care to improve adult health. Show less
BACKGROUND Acute decompensated heart failure (ADHF) is associated with deterioration in renal function-an important risk factor for poor outcomes. Whether ADHF results in permanent kidney damage/dysfu Show more
BACKGROUND Acute decompensated heart failure (ADHF) is associated with deterioration in renal function-an important risk factor for poor outcomes. Whether ADHF results in permanent kidney damage/dysfunction is unknown. METHODS AND RESULTS We investigated for the first time the renal responses to the development of, and recovery from, ADHF using an ovine model. ADHF development induced pronounced hemodynamic changes, neurohormonal activation, and decline in renal function, including decreased urine, sodium and urea excretion, and creatinine clearance. Following ADHF recovery (25 days), creatinine clearance reductions persisted. Kidney biopsies taken during ADHF and following recovery showed widespread mesangial cell prominence, early mild acute tubular injury, and medullary/interstitial fibrosis. Renal transcriptomes identified altered expression of 270 genes following ADHF development and 631 genes following recovery. A total of 47 genes remained altered post-recovery. Pathway analysis suggested gene expression changes, driven by a network of inflammatory cytokines centered on IL-1β (interleukin 1β), lead to repression of reno-protective eNOS (endothelial nitric oxide synthase) signaling during ADHF development, and following recovery, activation of glomerulosclerosis and reno-protective pathways and repression of proinflammatory/fibrotic pathways. A total of 31 dysregulated genes encoding proteins detectable in urine, serum, and plasma identified potential candidate markers for kidney repair (including Show less