#723 The impact of kidney function on arterial stiffness in COVID-19 survivors: an analysis from CARTESIAN Study

Abstract

Abstract Background and Aims SARS-CoV-2 pandemic has been linked to an increased incidence of cardiovascular events, potentially due to accelerated vascular aging [1]. Conversely, impaired kidney function is known to contribute to the pathogenesis of heightened arterial stiffness, independent of traditional cardiovascular risk factors [2]. This study aimed to assess the impact of COVID-19 on arterial stiffness among a cohort of survivors of the first pandemic wave, with varying degrees of infection severity. The assessment was conducted at 6 ± 3 (T1) and 12 ± 3 months (T2) post-infection, with the population stratified based on kidney function. Method the CARTESIAN study, a large international multicenter cohort study, was designed to assess the long-term effects of COVID-19 on vascular aging. A total of 938 subjects were stratified into three groups based on their estimated glomerular filtration rate (eGFR) percentiles using the CKD-EPI_2021 equation: 1) >75th percentile, 2) 75th-25th percentile, and 3) <25th percentile, respectively. The same population was further categorized based on the severity of COVID-19 into three groups: 1) patients who were not hospitalized (No-Hosp), 2) subjects requiring hospitalization in a medical unit (Hosp), or 3) those in an intensive care unit (ICU). Arterial stiffness was evaluated using carotid-femoral pulse wave velocity (cf-PWV). A hierarchical repeated measures mixed model analysis was conducted to compare cf-PWV across these groups (>75th, 75th-25th, and <25th groups, respectively). Results in the cross-section analysis (T1) <25th group exhibited higher age, increased cardiovascular risk factors, and higher prevalence of severe COVID-19 compared to the >75th group. Using hierarchical linear modeling, the <25th exhibited higher cf-PWV than the >75th group, even after adjusting for both all the random and fixed variables, included the three COVID-19 group (+0.51 m/s, p = 0.013). In longitudinal analysis, globally, no substantial changes were found in the cf-PWV between T1 and T2, remained significantly higher in the <25th group compared to the >75th group (p = 0.003), in a linear mixed model adjusted for all the random and fixed variables. Interestingly, a significant interaction between eGFR groups* COVID-19 groups was found in repeated measures analysis (p = 0.039). In particular, within ICU group, we found a significant increase of cf-PWV between 6- and 12-months in <25th group, from 8.64 [7.59-9.31] to 9.41 [8.89-10.41] m/s, p = 0.021) (Fig. 1). Conclusion the findings suggest that individuals with both lower eGFR and a history of severe COVID-19 may be at a heightened risk of accelerated arterial aging. Understanding these dynamics is crucial for targeted interventions to mitigate long-term cardiovascular consequences in COVID-19 survivors with kidney disease.