Risultati per: Approfondimenti sulla terapia domiciliare del COVID‑19

Circulation, Volume 150, Issue Suppl_1, Page A4117883-A4117883, November 12, 2024. Introduction/Background:Cardiovascular symptoms appear in a high proportion of patients in the few months following a severe SARS-CoV-2 infection. Non-invasive methods to predict disease severity could help personalizing healthcare and reducing the occurrence of these symptoms.Research Questions/Hypothesis:We hypothesized that blood long noncoding RNAs (lncRNAs) and machine learning (ML) could help predict COVID-19 severity.Goals/Aims:To develop a model based on lncRNAs and ML for predicting COVID-19 severity.Methods/Approach:Expression data of 2906 lncRNAs were obtained by targeted sequencing in plasma samples collected at baseline from four independent cohorts, totaling 564 COVID-19 patients. Patients were aged 18+ and were recruited from 2020 to 2023 in the PrediCOVID cohort (n=162; Luxembourg), the COVID19_OMICS-COVIRNA cohort (n=100, Italy), the TOCOVID cohort (n=233, Spain), and the MiRCOVID cohort (n=69, Germany). The study complied with the Declaration of Helsinki. Cohorts were approved by ethics committees and patients signed an informed consent.Results/Data:After data curation and pre-processing, 463 complete datasets were included in further analysis, representing 101 severe patients (in-hospital death or ICU admission) and 362 stable patients (no hospital admission or hospital admission but not ICU). Feature selection with Boruta, a random forest-based method, identified age and five lncRNAs (LINC01088-201, FGDP-AS1, LINC01088-209, AKAP13, and a novel lncRNA) associated with disease severity, which were used to build predictive models using six ML algorithms. A naïve Bayes model based on age and five lncRNAs predicted disease severity with an AUC of 0.875 [0.868-0.881] and an accuracy of 0.783 [0.775-0.791].Conclusion:We developed a ML model including age and five lncRNAs predicting COVID-19 severity. This model could help improve patients’ management and cardiovascular outcomes.

Circulation, Volume 150, Issue Suppl_1, Page A4145209-A4145209, November 12, 2024. Background:Acute decompensated heart failure accounts for an increasing proportion of hospitalizations in the United States and is linked to high readmission and 30-day mortality rates. Prior studies suggest up to 17% mortality rate within 30 days for patients admitted with heart failure.Research Questions/Hypothesis:We present an analysis characterizing patients who experienced mortality within 30 days of admission at a large safety net hospital following the COVID-19 pandemic.Methods/Approach:A retrospective review was conducted for all heart failure admissions of patients >18 years of age admitted to the coronary care unit (CCU) at Los Angeles General Medical Center from January to December 2021 after the peak of the COVID-19 pandemic. Demographics, insurance information, drug use, medication use, heart failure etiology, and CCU interventions were indexed. The primary outcome was all-cause mortality.Results/Data:172 patients were identified during the study period. 10% of patients died within 30 days of admission, of which 94% died during the same admission. Of patients who died during index admission, 88% had heart failure with reduced EF. None of these patients were on all four pillars of guideline-directed medical therapy (GDMT), with 33% on one or no GDMT medications.There was not a statistically significant difference in mortality rate when comparing those with active stimulant use 5/60 (8%) to those without active illicit drug use 12/112 (11%) (RR 0.79, 95% CI, p= 0.64).9/17 (53%) patients died of refractory cardiogenic shock, 5/17 (29%) were found in cardiopulmonary arrest of unknown etiology while undergoing treatment for acute decompensated heart failure. Two patients (12%) died of septic shock while 1/17 (5%) died of hemorrhagic shock related to chronic liver disease.Conclusion(s)The COVID-19 pandemic exacerbated significant healthcare inequalities, especially for urban underserved populations leading to late presentations of disease and worse outcomes, however, based on our data the overall inpatient mortality rate remained largely similar to pre-pandemic values.

Circulation, Volume 150, Issue Suppl_1, Page A4125636-A4125636, November 12, 2024. Background:Postural orthostatic tachycardia syndrome (POTS) is a prevalent cardiovascular disorder after COVID-19 infection. Although POTS is characterized by the presence of sinus tachycardia, other hemodynamic disturbances including blood pressure (BP) regulation, remain largely unexplored.Aims:We investigated BP changes using 24-hour ambulatory-BP-monitoring in patients with new-onset POTS after COVID-19 compared with pre-pandemic healthy controls.Methods:We performed a case-control study in 100 verified COVID-19 patients with new-onset POTS (mean age 40.0±12.9 years, 85% women) diagnosed by positive head-up tilt-testing versus 100 healthy controls (mean age 45.0±14.6 years, 70% women) from a population-based cohort with negative active standing test, no history of syncope, orthostatic intolerance, or endocrine disease. We analyzed 24-hour Systolic BP (SBP) and hypotensive SBP episodes (

Circulation, Volume 150, Issue Suppl_1, Page A4119613-A4119613, November 12, 2024. Introduction:Percutaneous Coronary Intervention (PCI) is recommended for reperfusion of patients presenting with ST-segment myocardial infarction (STEMI) within 90 minutes. In this study, we sought to identify differences in PCI timing based on gender, race and ethnicity in the pre- and post-COVID era.Methods:We collected retrospective data on 760 patients admitted with STEMI at our quaternary academic medical center from 2018-2022. We defined our binary outcome as time to PCI less than 90 minutes, and adjusted for transfers from outside hospitals. We utilized univariate logistic regression analysis to analyze the association of demographic, clinical, and cardiac catheterization details on our outcome. We then utilized multivariate logistic regression analysis to determine the association of our covariates of interests with time to PCI. The logistic regression model was adjusted for collinearity which were deemed not significant.Results:Among our study population, COVID did not significantly impact whether or not a patient had a diagnostic cardiac catheterization on univariate analysis (OR 2.68, 95% CI 0.61-18.40, p=0.23). However, the post-COVID era was significantly associated with a delayed time to PCI on multivariate analysis [OR 1.62, 95% CI 1.04-2.55, p=0.035) [Figure 1]. In addition, females were 1.8x more likely to have a delayed PCI than males on multivariate regression [OR 1.80, 95% CI 1.10-2.95, p= 0.019) [Figure 1]. Interestingly, on multivariate analysis, females were more likely to have delayed reperfusion in the pre-COVID era (OR 2.92, 1.29-6.77,p= 0.01) but not the post-COVID era (OR 1.54, 0.78-3.06,p=0.2134). Patients in the post-COVID era had increased risk of having their culprit coronary not revascularized on multivariate analysis (OR 2.85, 1.2-8.03, p= 0.03).Conclusions:At our center, COVID did not significantly impact cardiac catheterization rates. However, COVID was significantly associated with delayed reperfusion timing and not revascularizing culprit vessels. Females were much more likely to have a delayed PCI than males in the pre-COVID era which was not seen following COVID-19.

Circulation, Volume 150, Issue Suppl_1, Page A4142935-A4142935, November 12, 2024. Background.Post-COVID syndrome is related to a multisystem disorder that affects in part the cardiovascular system. This disease involves symptoms, and conditions that continue or develop after acute COVID-19. SARS-CoV-2 infection of immune and endothelial cells are associated with NETosis, microthrombosis and endothelial dysfunction that could persist several weeks after acute phase of infection. Damaged endothelial cells can expose the vessel pro-coagulant area leading to platelet and neutrophil clumps. Increased levels of circulating endothelial cells (CECs) have been described as biomarkers for cardiovascular diseases. Therefore, we hypothesize that CECs and microthrombosis are potential biomarkers of vascular dysfunction in Long COVID.Methods.A cross-sectional study was conducted at the Miami VA long COVID clinic. Long COVID cases and controls were recruited according to WHO definition for long COVID. A total of 23 patients and 7 controls were included in this study. Blood samples were collected in Heparin and Sodium Citrate tubes. Cell immunophenotyping and NETosis markers (MPO) were quantified on a Cytek Aurora spectral flow cytometer system. Microclots (CD62P+PAC-1+) and platelet response were assessed by flow cytometry and response to Adenosine di-phosphate (ADP), respectively. A ttest was used for statistical analysis. Differences were considered significant when p < 0.05.Results.The age and gender were similar between cases and controls while their symptom score was significantly different. There was a significant increase in the number of CECs (CD31+CD309+CD45-CD133-) in Long COVID cases. MPO expression in neutrophils (CD11b+CD66b+CD15+) and classical monocytes (CD14+CD16-) was significantly higher in Long COVID. Microclots were significantly elevated, and the platelet aggregation response was dysregulated in Long COVID.Conclusions.CECs and microthrombosis including NETosis are present in Long COVID and may serve as potential biomarkers or causative mechanisms for vascular dysfunction.

Circulation, Volume 150, Issue Suppl_1, Page A4143985-A4143985, November 12, 2024. Introduction:Endothelial dysfunction can trigger the development and progression of cardiovascular disease. We hypothesize that cardiovascular PASC is induced by persistent endothelial dysfunction mediated via asymmetric-dimethylarginine (ADMA, the endogenous inhibitor of endothelial nitric oxide synthase). ADMA levels rise in response to viral infections, but it is usually degraded by the enzyme DDAH1, which is inhibited by chronic inflammation and oxidative stress. This study aims to determine whether cardiovascular PASC is associated with endothelial dysfunction and to clarify the role of ADMA in this relationship.Methods:We recruited subjects who had been previously infected and developed cardiovascular symptoms (PASC+), those who had been infected but did not have PASC (PASC-), and those who had never been infected (controls) (n=20 each). Groups were matched for age, sex, and BMI and underwent blood draws and fat biopsies. Vascular function was assessedin-vivovia ultrasound imaging andex-vivoin fat-isolated arterioles.Results:Compared to PASC- and controls, PASC+ subjects exhibited 80% higher serum levels of ADMA and 40% reduced nitric oxide levels. DDAH1 activity was elevated in the PASC+, suggesting a compensatory mechanism for the elevated ADMA levels. However, PASC+ obese subjects exhibited substantially lower DDAH1 activity than non-obese subjects, which was associated with lower insulin sensitivity and higher ADMA levels. Compared to the other two groups, the PASC+ group exhibited lower brachial artery vasoreactivity, while nitroglycerin-induced dilation did not differ statistically, suggesting impaired endothelial function. In the PASC+ group, microvascular recruitment in response to reactive hyperemia was diminished, as was the ex vivo measured flow-induced arteriolar dilation and NO generation. Left ventricle (LV) dysfunction was observed in 80% of the PASC+ group, as opposed to 5% of the PASC- and controls. The LV ejection fraction and global longitudinal strain (GLS) were substantially reduced in the PASC+ group, which was correlated with higher ADMA, C-reactive protein, and troponin-1, as well as lower NO and vascular function. Obese PASC+ subjects had the highest ADMA and the lowest endothelial-dependent vasodilation and insulin sensitivity.Conclusion:Cardiovascular PASC symptoms are related to persistent endothelial dysfunction and elevated ADMA levels, which may be further exacerbated by obesity and reduced DDAH1 activity.

Circulation, Volume 150, Issue Suppl_1, Page A4141078-A4141078, November 12, 2024. Background:Social determinants of health (SDOH),exacerbated by the COVID-19 pandemic, impact access to medical care.Research Question:Through descriptive qualitative inquiry, we explored barriers and facilitators to pediatric cardiology ambulatory care for patients with complex congenital heart disease (CCHD) during COVID-19.Methods:English- and Spanish-speaking caregivers of children with CCHD who missed at least one clinic visit during the first year of COVID-19 were recruited, with purposeful sampling of Black and Hispanic patients. Semi-structured interviews inquired about the impact of the pandemic, experience with telehealth and communication with providers, effects of SDOH, and perceived impact of their race/ethnicity on care. Content analysis summarized information and identified themes.Results:Interviews (19) were conducted: 14 in English (6 Black, 2 Hispanic, 2 White, 3 mixed race, 1 American Indian), and 5 in Spanish (5 Hispanic). Overarching themes were: Barriers to Care, Facilitators of Returning/Staying in Care, Impact of Diagnosis, and Recommendations for Improvement (Image 1). Despite challenges with finances and transportation, as well as concern for infection risk, the majority of caregivers preferred in-person care over telehealth due to physical exam, diagnostic testing, and interpersonal connection with providers. SDOH challenges including housing, transportation, and employment contributed to missing care. For some families, social vulnerability was exacerbated by their child’s CCHD diagnosis and then again by COVID-19. Universally, caregivers felt their child’s race/ethnicity did not affect the care they received. Spanish-speaking caregivers expressed their primary language as a barrier to care and their desire for more thorough explanations and teach-back from the medical team.Conclusion:While SDOH can hinder access to ambulatory cardiac care, trusting relationships with care teams facilitated engagement. Social vulnerability contributed to dynamic situations for families, especially during COVID-19, highlighting the need for routine SDOH assessment and support. English- and Spanish-speaking caregivers echoed the same challenges. Race/ethnicity was not felt to impact care received.

Circulation, Volume 150, Issue Suppl_1, Page A4145229-A4145229, November 12, 2024. Background:Stress-induced cardiomyopathy (CM) is a form of acute transient left ventricular dysfunction triggered by underlying physiological stress which often leads to increased morbidity and mortality. Coronavirus disease 2019 (COVID-19) is thought to cause stress-induced CM due to overwhelming systemic inflammation. There is paucity of data regarding the impact of COVID-19 on in-hospital outcomes of patients with stress-induced CM. The purpose of this study is to investigate in-hospital outcomes, including mortality and cardiogenic shock, of patients with concomitant COVID-19 and stress-induced CM.Methods:We queried the 2020 USA National Inpatient Sample (NIS) Database in conducting this retrospective cohort study. We identified hospitalized adult patients ≥ 18 years old with stress-induced CM and concomitant COVID-19 using ICD-10 CM codes. We used a survey multivariable logistic and linear regression analysis to calculate adjusted odds ratios (aORs) for outcomes of interest. A p value of

Circulation, Volume 150, Issue Suppl_1, Page A4141333-A4141333, November 12, 2024. Background:COVID-19 is a multiorgan disease characterized by a prothrombotic state and increased risk of venous thromboembolism (VTE), especially in hospitalized patients. Although prior studies have attempted to identify predictors of VTE, restricted sample size and use of administrative claims data have limited such analyses. We conducted a multivariable analysis to identify predictors of VTE in hospitalized patients with COVID-19 in a multicenter patient-level registry.Methods:We utilized data from the CORONA-VTE Network, a US multicenter registry of 10,420 adult (≥18 years) patients with PCR-confirmed COVID-19 of whom 3,844 were hospitalized. The primary outcome was time-to-first-event for a composite of adjudicated pulmonary embolism and deep vein thrombosis (e.g. lower extremity, mesenteric, gonadal vein, etc.) during 90-day follow-up. The candidate variables were selected by a priori clinical consensus. The variables with ≥20% missing data were excluded, whereas those with missing data

Circulation, Volume 150, Issue Suppl_1, Page A4143186-A4143186, November 12, 2024. Introduction:Statins are lipid-lowering agents with anti-inflammatory effects. Data surrounding the benefits of statins in patients with coronavirus disease 2019 (Covid-19) are conflicting. We sought to better understand the impact of statins in the context of Covid-19-related inflammation.Methods:We leveraged the International Study of Inflammation in Covid-19, a prospective multicenter cohort study of patients hospitalized specifically for Covid-19 between February 1, 2020 and October 30, 2022. Participants underwent systematic assessment of biomarkers of inflammation. We used logistic regression modeling and inverse probability-of-treatment weighting (IPTW) to examine the association between prior statin use and the composite outcome of in-hospital death, need for mechanical ventilation, and need for renal replacement therapy.Results:A total of 4,464 patients were included in the study, of whom 1,364 (27.5%) were taking a statin prior to admission. There were 1,061 primary outcome events, including 540 deaths, 854 mechanical ventilation and 313 renal replacement therapy. Amongst biomarkers of inflammation, statin use was associated solely with lower levels of soluble urokinase plasminogen activator receptor (suPAR) after adjusting for known confounders. In multivariable logistic regression analysis, statin use was associated with lower odds of the composite outcome (adjusted odds ratio (aOR) 0.63, 95%CI[0.53-0.76]) compared to patients not on statins. Findings were consistent with IPTW (aOR 0.92, 95%CI [0.89- 0.95]). The proportion of the effect of statin on the primary outcome mediated by suPAR was estimated at 31.5%.Conclusion:Prior statin use is associated with improved outcomes and lower inflammation as measured by suPAR levels in patients hospitalized for Covid-19.

Circulation, Volume 150, Issue Suppl_1, Page A4148010-A4148010, November 12, 2024. Background:Severe COVID-19 infection has been associated with acute respiratory distress syndrome (ARDS) and right ventricular (RV) dysfunction. In this study, we report associations between echocardiographic findings and laboratory markers that portend RV failure in patients with ARDS secondary to COVID-19 infection on ECMO.Methods:A single-center study was conducted in the cardiovascular ICU of our institute. A retrospective chart review was performed on 41 patients with COVID-19 on ECMO between March and October 2020. Twenty-two patients had transthoracic echocardiograms (TTE) completed while on ECMO (VV-ECMO = 19, VA-ECMO = 3). Echocardiograms (echo) were obtained pre-cannulation, during ECMO, and post-ECMO decannulation. RV parameters analyzed included tricuspid annular plane systolic excursion (TAPSE), basal diastolic RV diameter, right ventricular fractional area of change (RV FAC), and S’. Laboratory values including BNP, CRP, D-dimer, ferritin, fibrinogen, lactate and troponin were analyzed for correlation with echo findings.Results:TAPSE was significantly lower in deceased patients (1.9± 0.4cm vs 1.3±0.6 cm, P< 0.05). RV FAC and S’ were also lower in the deceased group. TAPSE while on ECMO showed a positive association with peak D-dimer levels in survivors and a negative association in deceased patients. Peri-ECMO fibrinogen and CRP levels were negatively associated with TAPSE in survivors while fibrinogen showed positive association in deceased patients. LDH peak, fibrinogen initial and lactate peak were higher in the deceased[ZQ1] group. There is a trend of increased RV basal diameter in the deceased group (3.9±0.9 vs 4.2±0.9 cm). Last troponin levels were negatively associated with basal diastolic RV diameter while on ECMO in deceased patients.Conclusion:Preservation of RV longitudinal contractility, as reflected by TAPSE, may play an important role in the survival of COVID-19 patients on ECMO. Laboratory markers such as LDH, D-dimer, fibrinogen and lactate may have prognostic value in predicting RV failure. Further studies are required to determine if early initiation of therapies to improve RV systolic function in COVID-19 ECMO patients with ARDS improves outcomes.

Circulation, Volume 150, Issue Suppl_1, Page A4142129-A4142129, November 12, 2024. Background:The clinical impact of neutrophil to lymphocyte ratio (NLR) and right ventricular (RV) dysfunction on clinical outcomes in COVID-19 have not been studied in the often-underrepresented Indonesian population.Aim:To investigate the role of NLR and RV dysfunction in Indonesian patients hospitalized for COVID-19.Methods:A retrospective cohort study was conducted at a COVID-19 referral hospital in Indonesia. We included all adult patients hospitalized with COVID-19 between April 2020 – April 2021 who had transthoracic echocardiography (TTE) during admission. Clinical data were extracted from electronic medical records. TTE variables were defined according to the American Society of Echocardiography criteria. All statistical analyses were conducted using the SPSS software. This study was approved by the IRB at Universitas Indonesia (#2022-01-135).Results:A total of 488 patients were included – 29 with and 459 without RV dysfunction. The mean age of the population was 54.8 (SD ± 13.5), and 42% were females. Receiver operating curve analysis and Youden’s J statistics were used to determine the optimal NLR cut-off (Figure 1). An NLR > 4.79 was considered elevated, and had a sensitivity of 70.6% and a specificity of 80.6% in predicting severe – critical COVID-19. A high NLR (OR: 3.38, P = 0.02) and LV systolic dysfunction (OR: 9.76, P < 0.01) were independently associated with RV dysfunction. In multivariate cox regression analysis, older age (HR: 1.02, P = 0.01), obesity (HR: 1.85, P < 0.01), chronic kidney disease (HR: 1.69, P = 0.01), high NLR (HR: 2.75, P < 0.01), and RV dysfunction (HR: 2.07, P = 0.02) increased the risk of 30-day mortality.Conclusions:In Indonesian patients hospitalized with COVID-19, A high NLR is predictive of severe – critical COVID-19 and is associated with RV dysfunction. A high NLR at admission and RV dysfunction independently increase the risk of 30-day mortality in hospitalized Indonesian adults with COVID-19.

Circulation, Volume 150, Issue Suppl_1, Page ASa807-ASa807, November 12, 2024. Background:Despite the lack of evidence supporting the use of chest compression-only cardiopulmonary resuscitation (CO-CPR) emphasizing the importance of rescue breathing for pediatric out-of-hospital cardiac arrest (OHCA), prehospital CO-CPR is increasing. The COVID-19 pandemic may have led more bystanders to perform CO-CPR, even for pediatric OHCA. However, studies on the dissemination of CO-CPR and outcomes in pediatric OHCA are limited.Hypothesis:Spread of CO-CPR led to increased mortality in pediatric OHCA.Aims:Investigate the mortality of nationwide pediatric OHCA patients with the dissemination of CO-CPR pre- and post-COVID-19.Methods:We conducted a retrospective study using a Utstein-Style population cohort database (Japanese National Registry). Pediatric OHCA patients (≤17 years old) with bystander resuscitation attempts registered between the pre-COVID-19 era (2017-2019) and the post-COVID-19 era (2020-2021) were included. The primary outcome was 30-day mortality after OHCA. The secondary outcome was 30-day poor neurological outcomes, defined as Cerebral Performance Category scores of 3, 4, or 5. We used Poisson regression with robust variance to estimate adjusted risk ratio (aRR) with 95% confidence interval (CI) and the population attributable fraction (PAF, %) with a focus on the post-COVID-19 period.Results:A total of 3,352 pediatric OHCA, 2,023 pre-COVID-19, and 1,329 post-COVID-19 patients received bystander CPR and were registered in the database. CO-CPR was more common than CPR with rescue breathing (RB-CPR) during the pre- and post-COVID-19 periods [pre-COVID-19: 1,356 (67.0%) vs. 667 (33.0%), post-COVID-19: 1,048 (78.9%) vs. 281 (21.1%)]. Comparison of CO-CPR vs. RB-CPR showed increased 30-day mortality in both periods [pre-COVID-19: 1,081/1,356 (79.7%) vs. 420/667 (63.0%), post-COVID-19: 841/1,048 (80.2%) vs. 181/281 (64.4%)]. In the overall cohort, mortality increased with CO-CPR (aRR: 1.16, 95% CI: 1.09-1.23, PAF:1.60%). Due to the increased number of patients receiving CO-CPR, we estimated 21.2 excess deaths over the two-year post-COVID-19 period. Similar results were observed for poor neurological outcome (aRR: 1.10, 95% CI: 1.05-1.16, PAF: 1.10%, excess poor outcome: 14.6]).Conclusion:With the spread of CO-CPR for pediatric OHCA, an estimated 10.6 excess deaths per year attributed to CO-CPR may have occurred in the post-COVID-19 period compared to the pre-COVID-19 period in Japan.

Circulation, Volume 150, Issue Suppl_1, Page A4138301-A4138301, November 12, 2024. Background:Hyperlipidemia (HLD) is a major risk factor for cardiovascular disease (CVD). Little is known regarding temporal variation in CVD mortality related to HLD. The COVID-19 pandemic added complexity to factors influencing CVD mortality.Question:What are the yearly trends and impact of the COVID-19 pandemic on HLD-related CVD mortality in the United States?Methods:Mortality and demographic data for adults were obtained from CDC repository from 1999-2020, using ICD-10 codes HLD (E78.0-E78.5) and CVD (I00-I99). Age adjusted mortality rates (AAMR) per 1,000,000 population was standardized to the 2000 US population. Log-linear regression models evaluated mortality shifts. Average annual percentage change (AAPC) from 1999-2019 was used to calculate projected AAMR in 2020, subsequently compared to actual 2020 death rates to estimate pandemic-attributed excess deaths.Results:A total of 483,155 HLD-related CVD deaths were recorded between 1999-2020. Despite the CVD mortality decline in general population, HLD-related CVD AAMR rose from 36.33 [95% CI, 35.52-37.13] in 1999 to 99.77 [98.67-100.87] in 2019. Ischemic heart diseases (AAMR 49.39) were the most common causes of death while hypertension had the highest annual mortality increase (AAPC +10.23%) in populations with HLD. Higher HLD-related CVD mortality was observed in males (AAMR 104.87) than females (AAMR 61.93), in those ≥75 years (AAMR 646.45) than 35-75 years (AAMR 54.11), in non-Hispanic (NH) (AAMR 82.49) than Hispanic (AAMR 58.98) populations, and in rural (AAMR 89.98) than urban (AAMR 78.94) regions. NH Black populations (AAMR 84.35) and Western US regions (AAMR 96.88) had the highest HLD-related CVD. The first year of COVID-19 pandemic resulted in 10.55% excess HLD-related CVD death, with the most prominent increase in the 35-75 years age group (14.23%), Hispanic (17.96%), Black (14.82%), and urban (11.68%) populations.Conclusions:Our study revealed an increase in HLD-related CVD mortality which was exacerbated by the COVID-19 pandemic. Higher CVD mortality disproportionately affected males, Black, elderly (≥75 years), and rural populations with HLD. Further research is needed to validate our findings and identify contributing factors.

Circulation, Volume 150, Issue Suppl_1, Page A4140703-A4140703, November 12, 2024. Background:The mRNA vaccines against COVID-19 are highly effective but have been associated with a rare non-infective form of myocarditis, particularly in young males after receiving the second dose. Understanding the mediators of this adverse effect is crucial to enhance the safety of future mRNA vaccines.Hypothesis:Myocardial injury following COVID-19 mRNA vaccination is mediated by overproduced cytokines, and estrogens have a protective effect on this adverse effect.Approach:Candidate cytokine mediators were identified through analysis of proteomics data from plasma samples of vaccinated individuals. Human iPSC-derived macrophages and cardiomyocytes were used to model cytokine-induced effects. An in vivo mouse model of cytokine-induced myocardial injury was employed to assess the impact of the cytokine cocktail and estrogens.Results:CXCL10 and IFN-γ were consistently upregulated in vaccinated individuals on day 1 and further elevated in patients with myocarditis following mRNA vaccination. Consistently, iPSC-derived macrophages exposed to COVID-19 mRNA vaccines produced these cytokines. Next, iPSC-derived cardiomyocytes exposed to these cytokines showed impaired contractility, arrhythmogenicity, and pro-inflammatory gene expression. The phytoestrogen genistein mitigated these effects in vitro, reducing cytokine-induced proteasomal degradation of cardiac proteins and preserving contractile function. In vivo, genistein significantly decreased cardiac injury markers and immune cell infiltration in a mouse model of cytokine-induced myocardial injury.Conclusion:CXCL10 and IFN-γ are key mediators of myocardial injury post-mRNA vaccination. Genistein shows potential as a therapeutic agent to mitigate associated cardiovascular risks.

Circulation, Volume 150, Issue Suppl_1, Page A4141163-A4141163, November 12, 2024. Background:The rising incidence of stroke among young adults is partly explained by underdiagnosis of risk factors such as hypertension. Current blood pressure cutoff values for hypertension diagnosis in adolescence are not based on cardiovascular outcomes and lack specificity for sex, even though female adolescents have lower blood pressure values.Methods:A nationwide, population-based, retrospective cohort study including data of all Israeli adolescents (16-19 years) who were evaluated prior to mandatory military service in 1985 through 2013. The medical evaluation included routine measurements of height, weight, and blood pressure. The primary outcome was the first occurrence of a stroke at a young age (≤52 years) as documented in the National Stroke Registry. Cox proportional hazard models were applied separately for males and females and adjusted for adolescent body mass index and sociodemographic variables. Diabetes status in adulthood, as documented in the National Diabetes Registry, was also accounted. Several sensitivity analyses were conducted, including the evaluation of ischemic stroke cases only as the outcome and stroke occurrence at a very young age (≤45 years).Results:The cohort comprised 1,897,048 adolescents (42.4% females). During 11,355,476 person-years of follow-up, there were 1,470 first stroke events, 1,233 (83.8%) cases were of ischemic etiology. In male adolescents, a diastolic blood pressure of ≥80 mmHg was associated with an adjusted hazard ratio (aHR) for stroke at a young age of 1.28 (95% confidence interval 1.05-1.58) (Image 1). In male adolescents with blood pressure of 70-79 mmHg, the aHR was comparable to that of the reference group (