Risultati per: Il significato della carica virale e l’effetto del vaccino anti-COVID-19

Circulation, Volume 150, Issue Suppl_1, Page A4146462-A4146462, November 12, 2024. Background:Recurrent ventricular tachycardia (VT) is common in patients with ischemic heart disease (IHD), even with anti-arrhythmic drugs on board. While ICDs can abort VT episodes, ICD shocks can be painful. Ablation therapy can reduce the number of ICD shocks and interventions, but the optimal ablation technique is still uncertain.Purpose:We aim to review the clinical efficacy and safety of catheter ablation vs anti-arrhythmic drugs in patients with IHD.Methods:We conducted comprehensive searches across PubMed, CENTRAL, WOS, Scopus, and EMBASE until Feb 2024. Pooled data were reported using risk ratio (RR) for dichotomous outcomes and mean difference (MD) for continuous outcomes, along with a 95% confidence interval (CI). This systematic review and meta-analysis was registered with PROSPERO ID: CRD42024551760.Results:We included seven RCTs with a total of 836 patients. Patients who underwent ablation had a lower risk of VT storm compared to those who received anti-arrhythmic drugs [RR: 0.65 with 95% CI (0.49, 0.87), P < 0.01), Compared to anti-arrhythmic drugs, the catheter ablation group also required less Appropriate ICD therapy [RR: 0.72 with 95% CI (0.57, 0.90), P < 0.01), and fewer ICD shocks [ RR: 0.64 with 95% CI (0.45, 0.93), P = 0.02). However, there was no significant difference in VT recurrence [RR: 0.91 with 95% CI (0.74, 1.14), P = 0.42), all-cause mortality [RR: 0.87 with 95% CI (0.65, 1.16), P = 0.34), or any adverse events [RR: 0.96 with 95% CI (0.50, 1.84), P = 0.91) between the two groups.Conclusion:Our meta-analysis showed that catheter ablation was associated with a reduction in VT storm, ICD therapy, and ICD shocks. However, when compared to anti-arrhythmic drugs, catheter ablation for VT in IHD patients did not appear to afford any significant survival advantage.

Circulation, Volume 150, Issue Suppl_1, Page A4146209-A4146209, November 12, 2024. Background:The management of recurrent pericarditis has evolved to include colchicine and novel anti-interleukin-1 agents, given the limited efficacy of traditional NSAIDs and corticosteroids. We conducted a pairwise and network meta-analysis to evaluate the efficacy and safety of colchicine and anti-IL-1 agents in recurrent pericarditis.Methods:We conducted a comprehensive search on various databases and registries, such as MEDLINE (via PubMed), Embase, and Cochrane Central Register of Controlled Trials (CENTRAL), to retrieve relevant RCTs. We used STATA version 17 to perform meta-analyses under a random-effects model and applied the empirical Bayes (Paule and Mandel) variance estimator to dichotomous data. We performed a network meta-analysis with a placebo/standard therapy group as the comparator in MetaXL 5.3 using the Generalized Pairwise Modeling based on the Bucher method.Results:A total of 6 RCTs were included in the meta-analysis. The risk of pericarditis recurrence was significantly decreased by colchicine (RR 0.46, 95% CI 0.37-0.58) and anti-IL-1 agents (RR 0.13, 95% CI 0.03-0.54) compared to placebo or standard therapy. Colchicine significantly decreased the risk of treatment failure (RR 0.42, 95% CI 0.31-0.57) but did not have a significant impact on the risk of adverse events (RR 1.06, 95% CI 0.31-3.62). No significant risk of adverse events (RR 2.16, 95% CI 0.66-7.01) or serious adverse events (RR 1.01, 95% CI 0.23-4.41) was observed with anti-interleukin-1 agents. Colchicine was also associated with a decreased risk of pericarditis-related rehospitalization (RR 0.26, 95% CI 0.10-0.70). The network meta-analysis showed that anti-IL-1 agents (RR 0.13, 95% CI 0.05 to 0.30) were associated with a greater reduction in pericarditis recurrence than colchicine (RR 0.46, 95% CI 0.37 to 0.59). All anti-interleukin-1 agents significantly decreased the risk of pericarditis recurrence, with comparable efficacies among the different agents.Conclusion:Colchicine and anti-IL-1 agents significantly reduced the risk of pericarditis recurrence with the anti-IL-1 agents demonstrating greater efficacy. Further, high-powered, large-scale RCTs that directly compare various treatment options are needed to confirm or refute our findings.

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 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 A4113573-A4113573, November 12, 2024. Introduction/Background:Cardiovascular and neurological diseases develop in a significant proportion of COVID-19 patients. Minimally invasive tools to predict outcome after SARS-CoV-2 infection would enable personalized healthcare, potentially easing the disease burden. We showed that blood levels of the long noncoding RNA lymphoid enhancer-binding factor-1 antisense 1 (LEF1-AS1) predict COVID-19 in-hospital mortality.Hypothesis:LEF1-AS1 is associated with long-term clinical outcomes of COVID-19.Aim:Test the capacity of LEF1-AS1 to predict neuro-cardio-vascular outcomes post-SARS-CoV-2 infection.Methods/Approach:We enrolled 104 primo-infected COVID-19 patients aged 18+ recruited from April to December 2020 in the PrediCOVID national cohort for which 12-month follow-up data were available (Ethics Committee approvals 202003/07 and 202310/02-SU-202003/07). Whole blood samples were collected at baseline and expression levels of LEF1-AS1 were assessed by quantitative PCR.Results/Data:Of the 104 patients, 35 had at least one neurological symptom and one cardiovascular symptom at month 12. Levels of LEF1-AS1 at baseline were lower (p=0.019) in patients who developed neurological and cardiovascular symptoms as compared to patients who did not. Lower LEF1-AS1 was associated with symptoms development with an odds ratio of 0.48 (95% CI 0.28-0.83) from logistic regression model adjusted for age, sex, comorbidities and disease severity at baseline. Addition of LEF1-AS1 to a clinical model including age, sex, comorbidities and baseline severity yielded an incremental predictive value as attested by an increased AUC from 0.79 to 0.83 (likelihood ratio test p=0.005), a net reclassification index of 0.54 (p=0.007) and an integrated discrimination improvement of 0.08 (p=0.009).Conclusion:Blood levels of LEF1-AS1 predict 12-month neurological and cardiovascular outcomes of COVID-19 patients. This needs to be validated in larger populations.

Circulation, Volume 150, Issue Suppl_1, Page A4146592-A4146592, November 12, 2024. Introduction:Low physical activity (PA) has been identified as a risk factor for development of atrial fibrillation (AF). However, the effect of changes in PA on directly recorded AF burden has not been well studied. The COVID-19 pandemic offered an opportunity to observe whether changes in activity were correlated with changes in AF burden. To determine if reduced PA is associated with higher AF burden, we assessed daily PA and AF burden data from patients with cardiac implantable electronic devices (CIEDs) enrolled in a prospective clinical trial, Targeting Risk Interventions and Metformin for Atrial Fibrillation (TRIM-AF, NCT03603912).Methods:Daily AF burden and activity were determined from implantable cardiac devices with atrial leads. The pandemic lockdown period was analyzed for up to 1 year. Pre-pandemic periods were matched by month to pandemic periods. To test the potential confounding of aging, pre-pre-pandemic periods were matched by month to pre-pandemic periods. To reduce the confounding of study interventions, matched periods were taken on one side of the study enrollment date. For PA and AF burden, Gaussian linear mixed models and a Bayesian mixed effect model were fitted and adjusted for age, sex, and device manufacturers. A Gaussian model was used to correlate daily activity minutes and AF%. Time splines were added to adjust for non-linear time effects. Outcomes are reported as mean activity minutes and daily AF%.Results:Comparing Pandemic vs. Pre-periods (N=82 periods; 55 male, 27 female), daily activity minutes decreased by a mean of 13.16±1.06 minutes/day, and daily AF burden increased by 16% [5%-26%]. Comparing Pre vs. Pre-Pre-Pandemic periods (N=60 periods; 41 male, 19 female), mean activity decreased by 2.28±1.13 mins/day, and AF burden increased by 57% [50%-64%]. A significant negative correlation between activity and AF burden was demonstrated (coefficient -2.0, 95% CI -2.4, -1.6). A decrease in 2.0 activity minutes was associated with a 10% increase in AF burden.Conclusions:This natural history analysis of PA and AF burden demonstrated decreases in activity and increases in AF burden with time and the pandemic. Activity and AF burden were significantly negatively correlated.

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 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 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 A4142847-A4142847, November 12, 2024. Background:Clonal hematopoiesis of indeterminate potential (CHIP) can contribute to cardiovascular risk. The Interleukin-6 receptor (IL6R) polymorphism (D358A) modifies the risk of coronary artery diseases among CHIP carriers in human cohorts. However, the effects of the IL6R D358A on IL-6 pathways are discordant with the canonical expectation, that the classical IL-6 signaling pathway is anti-inflammatory while the trans-signaling pathway is pro-inflammatory.Hypothesis:DNMT3A, the most frequent driver gene for CHIP, changes the inflammatory consequence of IL-6 classical signaling from anti-inflammatory to pro-inflammatory to worsen atherosclerosis.Method:We investigated if an anti-IL6R antibody modifies atherosclerosis associated with myeloidDnmt3adeficiencyin vivo.Ldlr-/-mice were transplanted with 10% bone marrow cells fromDnmt3a-/-mice/90% of wild-type (WT) cells compared with 100% WT transfer. After engraftment, mice consumed a high-fat diet, and received an anti-IL6R antibody for 10 weeks to assess aortic root atherosclerosis vs. control antibody treatment. We also investigated the differences between IL-6 classical- vs trans-signaling pathways and whetherDnmt3adeficiency in bone marrow-derived macrophages (BMDM) modifies the IL-6 pathways. RNA-seq was performed in BMDM stimulated with IL-6, which activates the classical IL-6 pathway, or IL-6/IL6R conjugate, which activates trans-signaling. We further compared IL-6 vs control stimulation betweenDnmt3a-/-and WT BMDM using RNA-seq, and the major finding was replicated by quantitative PCR. In addition, IL-1β was quantified in the conditioned medium.Result:Anti-IL6R antibody treatment reduced atherosclerosis in the mice with myeloidDnmt3adeficiency. IL4R expression rose significantly in BMDM stimulated by IL-6 compared to IL-6/IL6R conjugate. IL4R induction by IL-6, but not the IL-6/IL6R conjugate, fell significantly inDnmt3a-/-BMDM compared to WT. IL-1β secretion declined with IL-6 stimulation and was higher in IL6R deficient BMDM, but IL-6 stimulation and deletion ofIL6Rdid not affect IL-1β secretion inDnmt3a-/-BMDMs.Conclusion:These data suggest that DNMT3A tonically limits the IL-6 classical pathway to limit atherogenesis in an IL-4 signaling-dependent manner. These findings promote understanding of the CHIP-atherosclerosis association and inform the development of management strategies for CVD risk in CHIP carriers.

Circulation, Volume 150, Issue Suppl_1, Page A4140179-A4140179, November 12, 2024. Background:COVID-19 has led to significant global morbidity and mortality. Its impact on patients with hypertrophic cardiomyopathy (HCM) remains unclear.Aim:To evaluate the impact of COVID-19 infection on the readmission rate and associated outcomes in patients with HCM.Methods:In a retrospective study using the 2020 National Readmission Database, we collected data on patients with HCM who were admitted with the principal diagnosis of COVID-19. The primary outcome was the all-cause 30-day readmission rate. Secondary outcomes were common causes of readmission, in-hospital mortality, and resource utilization.Results:In 2020, a total of 1503 patients with HCM (mean age 67 years, 49% female) were hospitalized for COVID-19. Among them, 1216 (80.9%) were discharged alive and 180 (14.8%) were readmitted within 30 days. In-hospital mortality for readmissions remained relatively unchanged compared with index admissions (15.4% vs 19.0%, P=.34; Table 1). The most common cause of readmission was COVID-19 infection (38%), followed by other infections (11%) and acute kidney injury (4%). The most common cardiac cause for readmission was paroxysmal atrial fibrillation (2%). The mean length of stay for readmissions was relatively similar to the index admission (7.8 vs 9.9 days, P=.43). The mean hospital charge associated with readmission was $84,976 (total hospital charges were $15.2 million). The mean hospital cost associated with readmissions was $24,603 (total hospital costs were $4.4 million). A higher Charlson comorbidity index score was the main independent predictor of higher readmission rates.Conclusions:This study highlights the significant burden of COVID-19 on patients with HCM. Despite efforts to reduce readmission rates, a considerable percentage of patients experienced readmission within 30 days, largely attributed to COVID-19 infection. Close follow-up after discharge could prevent such readmission and the associated high mortality rates.

Circulation, Volume 150, Issue Suppl_1, Page A4140201-A4140201, November 12, 2024. Introduction:While implantable cardiac defibrillators (ICD) decrease sudden cardiac death, disparities in ICD use remain. The COVID-19 pandemic created strains on the US healthcare system that may have exacerbated these disparities.Methods:Using the US NCDR registry of primary and secondary prevention ICD implants, we compared sex, racial and ethnic disparities for 239,014 patients, aged 19-90 years, grouped into three time intervals from 2016 to 2022: Pre-COVID, COVID and Post-COVID. Centers without consistent reporting were excluded, as were patients with incomplete sex, race or ethnicity data. ICD implantation rates were compared using a Poisson regression model with interaction tests for sex, race and ethnicity by time window to see if disparities changed within this period. Implant rates by indication were also assessed.Results:Overall ICD implants decreased over the study period (Figure 1) with an average monthly rate of 3271 in the first three months of 2016 declining to 2334 in the last three months of 2022 (p=0.017). Disparities in ICD implantation for women, racial and ethnic minorities were observed pre-COVID and persisted (Table 1). Average ICD implant rates during these time periods varied by race with predominance in White patients. While gaps in ICD implant persisted, the disparities did not worsen during COVID-19 by sex, race or ethnicity (p-value for interactions were 0.79; 0.47; and 0.095, respectively). There was a more significant decrease in primary prevention ICD compared to secondary prevention ICD (p

Circulation, Volume 150, Issue Suppl_1, Page A4145068-A4145068, November 12, 2024. Background:The COVID-19 global pandemic was the third leading cause of mortality in the US in 2020 and is associated with numerous complications, including myocarditis. Diagnosis of COVID-19 myocarditis can involve costly and invasive procedures. In addition, asymptomatic myocarditis could place people at risk for arrhythmias and sudden cardiac death.Objective:To use machine learning (ML) of serum proteomics to distinguish asymptomatic COVID-19 positive volunteers with and without myocarditis.Approach and Results:In 2020, for a cohort of 20 previously healthy 18–23-year-old individuals diagnosed with COVID-19 two weeks after the diagnosis, CMR was performed to assess for evidence of cardiac inflammation and serum samples were obtained the same day (10 were diagnosed as myocarditis positive and 10 negative) We performed proteomic analysis using the SomaScan proteomics assay from SomaLogic. The data were passed through an initial feature selection process of 1000 rounds of bootstrapped multivariate logistic regression using L1-regularization to introduce sparser feature utilization. The top 25 features (largest absolute log-odds) were utilized for a final logistic regression analysis. The feature selection step was optimized to have an average receiver operating characteristic area under the curve (ROCAUC) of 83.29% over 1000 iterations, but the final model utilizing only 25 proteins achieved an average ROCAUC of 99.58%. This method produced 22 proteins with significant odds-ratios for COVID-19 myocarditis (OR 95%CI excluding 1), of particular interest are those involved in inflammatory control and injury response mechanisms. Increases in the heat shock protein DNAJB11 (1.19 [1.10, 1.27]) and calponin-2 (1.17 [1.10, 1.25]), as well as decreases IL1RN (0.88 [0.83, 0.93]) were associated in increased likelihood of CMR diagnosed myocarditis (Fig 1A). Furthermore, a UMAP projection of the data using the 22 significant features yielded a clear visual distinction between those with and without COVID-19 myocarditis via CMR (Fig 1B).Conclusion:Utilizing ML on serum proteomic screenings of asymptomatic young COVID-19 patients, we can differentiate between those with CMR myocarditis positive and negative patients.

Circulation, Volume 150, Issue Suppl_1, Page A4145096-A4145096, November 12, 2024. Introduction:Postural orthostatic tachycardia syndrome (POTS) and Inappropriate sinus tachycardia (IST) are common manifestations of cardiovascular dysautonomia (CVAD) in patients with post-COVID-19 syndrome. Studies regarding differences between post-COVID-19 POTS and post-COVID-19 IST have been sparse and based on small patient series.Aims:To examine clinical differences between POTS and IST in patients with post-COVID-19 syndrome.Methods:A cross-sectional observational study based on a dataset of patients diagnosed with post-COVID-19 syndrome and POTS/IST, at Karolinska University Hospital, Stockholm in 2020-2023, was performed. Data was retrieved using patients’ medical records. ANOVA, chi-square tests and Fisher’s exact tests were used for analysis.Results:A total of 200 patients diagnosed with post-COVID POTS/IST (ICD-10 codes, I.498 + U.099) were included (female, 85%) and divided into a POTS-group (n=110) and IST-group (n=90). Sixty-one patients (31%) met the diagnostic criteria of both and were included in the IST-group. The mean ages were 38 years for the POTS-group and 42 years for the IST-group (p=0.027). Hypertension was more common within the IST-group (p

Circulation, Volume 150, Issue Suppl_1, Page A4145299-A4145299, November 12, 2024. Background:COVID-19 can present with a wide spectrum of clinical manifestations ranging from asymptomatic to life-threatening. It is often thought of as a primarily pulmonary infection and different systemic presentations are sometimes overlooked. We present a case of COVID-19 induced myocarditis leading to hemodynamic instability and end-organ dysfunction.Case presentation:A 77-year-old male with a history of CKD, paroxysmal atrial fibrillation, and COPD was transferred to our hospital for a higher level of care due to worsening cardiogenic shock. He was cold and wet (Forrester class IV) with a High Sensitivity troponin of 331 and a BNP level of 21,503. EKG showed atrial fibrillation with RVR but no evidence of acute ischemic changes. A TTE was done which revealed an EF of 30-35% and diffuse hypokinesis with regional variation, a significant reduction from an EF of 50-55% just 4 weeks prior. The patient exhibited end-organ dysfunction, as evidenced by deranged liver function tests and a rise in creatinine from a baseline of 2 to 4.6, indicating congestive hepatopathy and cardiorenal syndrome respectively. The patient’s hemodynamics necessitated milrinone and norepinephrine infusions and efforts to wean them off were unsuccessful due to repeated failed fluid bolus challenges. Considering the patient’s clinical picture, there was a strong suspicion of viral-induced cardiomyopathy, and a COVID-19 infection was confirmed by PCR testing; his last COVID-19 booster dose was in 2021. The patient was promptly started on remdesivir and IV steroids. Unfortunately, the patient’s condition continued to deteriorate, and he succumbed to his illness.Discussion:A myriad of cardiovascular manifestations have been implicated with COVID-19, including ACS, myocarditis, and heart failure. Although the exact underlying mechanisms for each of these conditions are unclear, a complex interplay between direct viral injury, systemic inflammation, and cytokine storm has been hypothesized. Our case illustrates the quick progression of heart failure into cardiogenic shock requiring pressor support, with subsequent rapid decompensation rendering CMR, cardiac catheterization, and biopsy timely impractical. It serves as a reminder to explore COVID-19 as a potential cause of biventricular failure in individuals with no evident reason and rapid clinical deterioration, particularly as early initiation of antiviral therapy could improve prognoses.

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.