Pleurisy and pericarditis as a cause of atypical chest pain in patients with in early post-COVID-19 period.

During the pandemic COVID-19, there has been an increase in the number of patients with non-anginal chest pain at cardiologist appointments. Objective. To assess the incidence of signs of pleurisy and pericarditis after COVID-19 in non-comorbid patients with atypical chest pain and describe their characteristics according to echocardiography and magnetic resonance imaging. Materials and methods. From February 2021 to January 2022, 200 outpatients were prospectively enrolled in the study, all of them suffered from a discomfort in the heart region for the first time after SARS-CoV-2 infection. Inclusion criteria: 18-50 years old, 5-12 weeks after SARS-CoV-2 infection, non-anginal chest pain. Exclusion criteria: pneumonia or signs of pulmonary thromboembolism, coronary heart disease, congestive heart failure or kidney disease, clinical or laboratory signs of myocarditis, oncopathology, radiation or chemotherapy of the chest in past medical history. A survey was conducted (yes/no) for the presence of general malaise, quality of life deterioration, hyperthermia, cough. Ultrasound examination of the pericardium and pleura to detect effusion or post-inflammatory changes was performed in accordance with the recommendations. Magnetic resonance imaging was performed if ultrasound imaging was poor or there was no evidence of pericardial or pleural involvement in patients with typical symptoms. Results. 82 women and 118 men were included. Median of age 39 [28-46] years old. Pericarditis was diagnosed in 152 (76%) patients, including effusive pericarditis in 119 (78%), myocarditis in 6 (3%) and myopericarditis in 49 (25%) patients, pleurisy was detected in 22 (11%) patients, exudative pleurisy - in 11 (5.5%) patients with a predominant unilateral lesion of the mediastinal-diaphragmatic region adjacent to the heart. Hyperthermia was recorded in 2.5% of cases, general malaise - in 60% and a decrease in the quality of life - in 84%. Conclusion. Serositis as a cause of atypical chest pain among young non-comorbid patients in early postCOVID was identified in 87% of patients. In the coming years, it is probably worthwhile to perform ultrasound of the pericardium and pleura in all patients with chest pain.Copyright © 2022 Infectious Diseases: News, Opinions, Training.

Cytokine elimination in suspected COVID-19 perymyocarditis

Background: Only recently studies have been able to demonstrate the safety and efficacy of purification therapies in inflammatory diseases. Here we present the management of a young (21y) male patient in severe cardiogenic shock due to COVID-19 perymyocarditis admitted to the ICU at Bolzano Central Hospital. November 30th 2020 the patient developed high fever (>40 C) and diarrhea. After unsuccessfully being treated orally with a macrolide he was admitted to a peripheral hospital the 4th of December. The day after he deteriorated, required transfer to the ICU, endotracheal intubation and pharmacological cardiovascular support (Norepinephrine, Levosimendan). Antimicrobial treatment was started with piperacillin/tazobactam, linezolid and metronidazole. Despite multiple radiological and microbiological diagnostic attempts the origin of this severe septic shock remained unclear. December 6th the patient was transferred to Bolzano Central Hospital for VA-ECMO evaluation. Method(s): The transesophageal echocardiography revealed 15-20% of EF, lactate (5,2 mmol/l), cardiac enzymes (TropT 1400 mcg/l) and inflammatory parameters (PCT 35 ng/ml, IL-6 685 pg/ml) were elevated. We performed cardiac monitoring via Swan-Ganz catheter. The cardiac index was 1,6 l/min/m2. The peak dosage for Norepinephrine reached 7,5mg/h (1,47 mcg/kg/min). At Bolzano ICU we facilitate the pharmacological therapy with milrinone, vasopressin and low dose epinephrine. Furthermore, we impost continuous hemodiafiltration with CytoSorb filter. Result(s): Only hours after the start of filtration therapy the patient improved and we were able to gradually reduce catecholamine therapy, lactate values decreased. A VA-ECMO implantation was no more necessary. December 10th, we saw a stable patient without ventilatory or cardiovascular support, at echocardiography we revealed a normal EF. Conclusion(s): Clinically we saw a young patient in severe septic/cardiogenic shock due to perimyocarditis. Yet diagnostic attempts (CT-scan, multiple blood/urinary/liquor cultures) remained negative. Despite multiple negative PCR tests for SARS-CoV2 infection we performed specific immunoglobulin analysis and received a positive result for IgM. We therefore conclude on a COVID-19 associated perymyocarditis. Furthermore, this case illustrates the potential benefit of cytokine filtration and elimination in COVID-19 patients with altered IL6 levels.

Myopericarditis in a patient with COVID 19

In December 2019, several cases ofsevere pneumonia, caused by an unknown agent were reported in China. It was named SARS-CoV-2 and it causes COVID-19. This disease, considered a pandemic because of its high contagiousness and worldwide spread, presents cardiovascular complications in some patients. Myopericarditis is one of them. The clinical condition, the use of the electrocardiogram, echocardiogram, and markers of myocardial damage are essential for the diagnosis of this disease in a patient with COVID 19. Working in a multidisciplinary group is essential to improve medical care in these patients.

Drug Reaction With Eosinophilia and Systemic Symptoms-Associated Perimyocarditis After Initiation of Anti-tuberculosis Therapy: A Case Report.

A 34-year-old female who was recently placed on anti-tuberculosis medication with rifampin, isoniazid, pyrazinamide, and levofloxacin therapy for suspected tuberculosis reinfection presented with subjective fevers, rash, and generalized fatigue. Labs showed signs of end-organ damage with eosinophilia and leukocytosis. One day later, the patient became hypotensive with a worsening fever, and an electrocardiogram showed new diffuse ST segment elevations with an elevated troponin. An echocardiogram revealed a reduction in ejection fraction with diffuse hypokinesis, and cardiac magnetic resonance imaging (MRI) showed circumferential myocardial edema with subepicardial and pericardial inflammation. Prompt diagnosis of drug reaction with eosinophilia and systemic symptoms (DRESS) syndrome using the European Registry of Severe Cutaneous Adverse Reaction (RegiSCAR) criteria and discontinuation of therapy was initiated. Due to the hemodynamic instability of the patient, the patient was started on systemic corticosteroids and cyclosporine, with the improvement of her symptoms and rash. A skin biopsy was performed, which revealed perivascular lymphocytic dermatitis, consistent with DRESS syndrome. As the patient's ejection fraction improved spontaneously with corticosteroids, the patient was discharged with oral corticosteroids, and a repeat echocardiogram showed full recovery of ejection fraction. Perimyocarditis is a rare complication of DRESS syndrome that is associated with degranulation and the release of cytotoxic agents into myocardial cells. Early discontinuation of offending agents and initiation of corticosteroids are essential to rapid recovery of ejection fraction and improved clinical outcomes. Multimodality imaging, including MRI, should be used to confirm perimyocardial involvement and guide the necessity for mechanical support or transplant. Further research should be on the mortality of DRESS syndrome with and without myocardial involvement, with an increased emphasis on cardiac evaluation in DRESS syndrome.

Viral Myopericarditis and Viral Encephalitis as Manifestations of Covid-19 Infection: A Case Report

Intro: Coronavirus disease (COVID-19) is currently a global health crisis and is caused by a new strain of coronavirus. However, emerging literature of case reports noted possible extrapulmonary manifestations of the disease. Because COVID 19 is a relatively new disease, at present, little existing literature tackles the diagnosis and therapeutic management of COVID-19-related conditions outside the pulmonary system. Method(s): This is a case of a 24-year-old male presented with the chief complaint of sudden stiffening of all extremities. Non-contrast computed tomography (CT) scan was unremarkable. Chest X-ray revealed interstitial pneumonia and SARS-CoV-2 RT-PCR (OPS/NPS) was positive. Electrocardiogram (ECG) findings showed supraventricular tachycardia and had elevated Troponin I levels. Pertinent physical findings noted were slurring of speech, dysmetria, and vertical nystagmus. Finding(s): The patient was initially treated as a case of Bacterial Abscess versus Viral encephalitis. Pericardial ultrasound revealed small pericardial effusion and was started on Colchicine. Repeat cranial CT scan noted unremarkable results but due to persistence of symptoms, the patient was started with Dexamethasone. On Day 16 of illness, the patient was noted to have full resolution of symptoms. Rapid antibody testing was done which revealed positive for both IgG and IgM hence the patient was discharged with the final diagnosis of Viral Myopericarditis resolved, Viral encephalitis resolved, COVID-19 pneumonia recovered. Conclusion(s): Extrapulmonary manifestations have been reported increasingly as an atypical presentation of COVID 19 infection. Early recognition of viral myopericarditis and viral encephalitis as a manifestation of COVID 19 can lead to the initiation of proper treatment and management. More reports on these cases can aid future studies on diagnostics and therapeutic approaches during the COVID-19 pandemic.Copyright © 2023

Clinical Features, Laboratory Findings Outcomes in Multisystem Inflammatory Syndrome (Mis-C) Following Covid-19 Infection - a Multicenter, Observational, Ambidirectional Cohort Study in Rio De Janeiro State, Brazil

Objectives: As of March 5th, 2022, around 1.585 cases of MIS-C and 98 deaths (6,4%) were reported in Brazil. The state of Rio de Janeiro State (RJ) having 94 cases (5,9%) and 4 deaths (4,2%)1.Our aim was to evaluate clinical and laboratory features, and management of MIS-C in seven pediatric hospitals in RJ, Brazil. Method(s): Multicenter, observational, ambidirectional cohort study in seven tertiary hospitals in RJ(Brazil), assessing medical charts of pediatric inpatients (0-18 years) diagnosed with MIS-C according to WHO/CDC criteria, from August, 2020 to February, 2022. Descriptive statistics were used to analyze distributions of continuous variables, frequencies, and proportions. Result(s): A total of 112 cases of MIS-C were enrolled. The mean age was 4.2 years and thre was male predominance (59,8%). All cases had a SARS-CoV-2 contact (29.5% close contact;31.3%:positive PCR;serology:43.8%).Only 12.5% had comorbidities. Length of stay (LOS) was 7 days.Median duration of fever was 8 days. Most common symptoms were: rash(67%);gastrointestinal (67%);conjunctivitis (42%);neurological(39.6%);cardiovascular(37.5%);cervical lymphadenopathy (36.6%), and shock/hypotension(28.6%).Co-infection occurred in 3 patients. Forty-four patients fulfilled criteria for Kawasaki disease. Most patients were admitted to PICU(12;62,5%) for amedian of 2 days. Respiratory distress was seen in 18,7%;hypotension:28,6%, and shock in 23,2%. Main laboratory findings were: high C-reactive protein in 95%;D-dimer:77%, anemia:77%, thrombocytosis:63%;transaminitis:43.8%, lymphopenia:38%;hypoalbuminemia:34%;thrombocytopenia: 29%;hypertriglyceridemia:28%, and high pro-BNP in 27%. Echocardiogram was performed in 91/112 patients;abnormal in 70,3%;exhibiting myocardial dysfunction( 25%);pericardial effusion(21%);coronary dilation/aneurysms(11%) and, valvulitis (14.5%). IVIG+corticosteroids (CTC) were administered in 59.8%(67/ 112);18.6%(18/112) IVIG only;10.7%(12/112) CTC only;3.4%(4/112)biologics, and 15(13.3%) received no treatment. ASA low dose in 77.7% (87/112) and moderate/high dose in 34.8%. Oxygen support was needed in 27,7%;vasoactive amines:18,7%;dialysis:5,3%, and transfusion:18,7%.One patient died from a cytokine storm syndrome. Conclusion(s): Our study reports a higher number of MIS-C cases in RJ than the number reported to Brazilian authorities, highlighting underreporting. Our patients were younger, had fewer comorbidities, cardiovascular/gastrointestinal/renal involvement, shortest LOS in ICU, and a higher frequency of myopericarditis.

Incidence of myopericarditis after mRNA COVID-19 vaccination: A meta-analysis with focus on adolescents aged 12-17 years.

BACKGROUND: The incidence of myopericarditis after mRNA COVID-19 vaccination among adolescents aged 12-17 years remains unknown. Therefore, we conducted a study to pool the incidence of myopericarditis following COVID-19 vaccination in this age group. METHODS: We did a meta-analysis by searching 4 electronic databases until February 6, 2023. The following main keywords were used: "COVID-19", "vaccines", "myocarditis", "pericarditis", and "myopericarditis". Observational studies reporting on adolescents aged 12-17 years who had myopericarditis in temporal relation to receiving mRNA COVID-19 vaccines were included. The pooled incidence of myopericarditis and 95 % confidence interval (CI) were calculated using a single-group meta-analysis. RESULTS: Fifteen studies were included. The pooled incidences of myopericarditis after mRNA COVID-19 vaccination among adolescents aged 12-17 years were 43.5 (95 % CI, 30.8-61.6) cases per million vaccine doses for both BNT162b2 and mRNA-1273 (39 628 242 doses; 14 studies), and 41.8 (29.4-59.4) cases for BNT162b2 alone (38 756 553 doses; 13 studies). Myopericarditis was more common among males (66.0 [40.5-107.7] cases) than females (10.1 [6.0-17.0] cases) and among those receiving the second dose (60.4 [37.6-96.9] cases) than those receiving the first dose (16.6 [8.7-31.9] cases). The incidences of myopericarditis did not differ significantly when grouped by age, type of myopericarditis, country, and World Health Organization region. None of the incidences of myopericarditis pooled in the current study were higher than those after smallpox vaccinations and non-COVID-19 vaccinations, and all of them were significantly lower than those in adolescents aged 12-17 years after COVID-19 infection. CONCLUSIONS: The incidences of myopericarditis after mRNA COVID-19 vaccination among adolescents aged 12-17 years were very rare; they were not higher than other important reference incidences. These findings provide an important context for health policy makers and parents with vaccination hesitancy to weight the risks and benefits of mRNA COVID-19 vaccination among adolescents aged 12-17 years.

Multisystemic inflammatory syndrome of the adult post-COVID-19.

BACKGROUND: Multisystemic inflammatory syndrome of the adult, a new condition associated with an irregular immune response similar to that of children, is characterized by shock, heart failure or persistent hypotension, dyspnea on exertion, mild-moderate hypoxemia, gastric symptoms and elevated markers of systemic inflammation after severe COVID-19 pneumonia. CLINICAL CASE: A 56-year-old patient, uncontrolled diabetic, who presented symptoms associated with dyspnea, desaturation, chest pain and persistent fever, previously with severe pneumonia after one month of treatment. He was treated with oxygen, steroids and antibiotics for 3 weeks, but his symptoms worsened and he developed severe orthopnea, hypotension, chest pain, dyspnea at rest and severe desaturation, as well as elevation of inflammation markers (C-reactive protein, ESR, D-dimer, ferritin). Tomography of the chest showed residual pneumonia based on consolidation and ground glass. Echocardiogram evidenced diastolic dysfunction, myopericarditis and secondary endocarditis. Multisystemic inflammatory syndrome of the adult was diagnosed and patient was treated with IV immunoglobulin and steroid with a favorable response to treatment. CONCLUSION(S): This case shows that the adult systemic inflammatory syndrome is a differential diagnosis in a patient with shock of unknown etiology, heart failure and severe dyspnea previously infected by SARS-CoV-2. Immunoglobulin and steroid are the effective first-line treatment with excellent clinical response.Copyright © 2022 Comunicaciones Cientificas Mexicanas S.A. de C.V.. All rights reserved.

Case report: human granulocytic anaplasmosis causes acute myopericarditis with atrial fibrillation.

Background: Tick-borne illness are becoming increasingly common, in a spreading geographic area. Lyme disease is a well-known cause of cardiovascular disease, but anaplasmosis has previously had relatively little reported association with conduction and myocardial disease. Case Summary: A 65-year-old man with fever and malaise was admitted to the intensive care unit in shock. Electrocardiogram showed new atrial fibrillation and conduction abnormalities. Transthoracic echocardiogram demonstrated normal left ventricular ejection fraction but significant right ventricle dysfunction. Cardiac magnetic resonance imaging findings were consistent with myopericarditis. Workup revealed human granulocytic anaplasmosis without Lyme. He recovered with doxycycline. Conclusion: To our knowledge, this is one of the first reported cases of anaplasmosis causing electrical conduction and myocardial disease with haemodynamic instability in an isolated infection. Treatment with appropriate antibiotics and supportive care allowed the patient to recover to his functional baseline within a month from being discharged from the hospital. Recognition of anaplasmosis in the absence of Lyme disease as a potential cause of electrical and myocardial disease is important in the context of increasing anaplasmosis incidence across the United States.

COVID-19 and the autonomic nervous system

Background: COVID-19 infection has been shown to have an adverse impact on the cardiovascular system. Cardiac injury, as indicated by elevated cardiac troponin and NT-proBNP levels have been confirmed in COVID-19 cases. There is still ambivalent data on the effect of left ventricular function. Cases of left ventricular impairment, persistent hypotension, acute myopericarditis, myocarditis, arrhythmia and heart failure have been reported in the short term, but there is a significant lacuna when it comes to medium and long-term follow-up of subjects previously infected with COVID-19. Purpose(s): To assess any residual myocardial and autonomic injury in subjects previously infected with COVID-19 at a median follow-up of 5 months. Method(s): A case-control study was performed. Cases were randomly selected subjects who were previously diagnosed with COVID-19 infection following nasopharyngeal swabbing. Controls were subjects who had not been found to be infected with COVID-19 following swabbing and were negative for COVID-19 IgG antibodies. All participants were submitted a standardised questionnaire regarding past medical history. Blood investigations were taken including NT-proBNP and troponin I levels. In addition, all participants underwent 24-hour ambulatory blood pressure monitoring (ABPM) and 24-hour ECG monitoring. The latter was used to assess both for underlying arrhythmias as well as heart rate variability (HRV), a measure of autonomic regulation of the heart. All data was analysed using SPSS version 23.0. Result(s): The study comprised 259 subjects, whereby cases included 174 participants while 75 subjects were age- and gender-matched controls. The study cohort was relatively young with a mean age of 46.1+/-13.8 years. The median follow-up was of approximately 5 months (median 173.5 days, IQR 129-193.25 days). There was no statistically significant difference between cases and controls with regards cardiovascular risk factors and underlying medical conditions. Likewise, there was no difference in blood investigations, including troponin I and NT-proBNP levels at 5-months followup. No difference was noted between the two groups in both awake and asleep blood pressure (BP) readings, as well as dipping BP status. No significant arrhythmias were noted in both groups on 24-hour ECG monitoring. However, when assessing for heart rate variability, it was shown that subjects who had been previously infected with COVID-19 exhibited lower root-mean square differences of successive R-R intervals (RMSSD), p=0.028. This indicates poor vagus nerve-mediated autonomic control of the heart. Conclusion(s): Subjects previously infected with COVID-19 exhibited lower HRV as exhibited by low RMSSD as compared to controls. Reduced HRV is a known biomarker for mortality and sudden death in cardiac disease. The possible long-term implications of reduced HRV in subjects previously infected with COVID-19 merits further investigation.

Cardiopulmonary long-term effects in patients after hospitalization due to COVID-19 infection

Background: Multiple studies have described acute effects of the Covid-19 infection on the heart, but little is known about the long-term cardiac and pulmonary effects and complications after recovery. The aim of this analysis was to deliver a comprehensive report of symptoms and possible long-term impairments after hospitalization because of Covid-19 infection as well as to try to identify predictors for Long-Covid. Method(s): This was a prospective, multicenter registry study. Patients with verified Covid-19 infection, who were treated as in-patients at our dedicated Covid hospital (Clinic Favoriten), have been included in this study. In all patients, testing was performed approximately 6 months post discharge. During the study visit the following tests and investigations were performed: Detailed patient history and clinical examination, transthoracic echocardiography, electrocardiography, cardiac magnetic resonance imaging (MRI), chest computed tomography (CT) scan, lung function test and a comprehensive list of laboratory parameters including cardiac bio markers. Result(s): Between July 2020 and October 2021, 150 patients were recruited. Sixty patients (40%) were female and the average age was 53.5+/-14.5 years. Of all patients, 92% had been admitted to our general ward and 8% had a severe course of disease, requiring admission to our intensive care unit. Six months after discharge the majority of patients still experienced symptoms and 75% fulfilled the criteria for Long-Covid. Only 24% were completely asymptomatic (figure 1). Echocardiography detected reduced global longitudinal strain (GLS) in 11%. Cardiac MRI revealed pericardial effusion in 18%. Furthermore, cardiac MRI showed signs of former peri-or myocarditis in 4%. Pulmonary CT scans identified post-infectious residues, such as bilateral ground glass opacities and fibrosis in 22%. Exertional dyspnea was associated with either reduced forced vital capacity measured during pulmonary function tests in 11%, with reduced GLS and/or diastolic dysfunction, thus providing evidence for a cardiac and/or pulmonary cause. Independent predictors for Long-Covid were markers of a more severe disease course like length of in-hospital stay, admission to an intensive care unit, type of ventilation as well as higher NT-proBNP and/or troponin levels. Conclusion(s): Even 6 months after recovery from Covid-19 infection, the majority of previously hospitalized patients still suffer from at least one symptom, such as chronic fatigue and/or exertional dyspnea. While there was no association between fatigue and cardiopulmonary abnormalities, impaired lung function, reduced GLS and/or diastolic dysfunction were significantly more prevalent in patients presenting with exertional dyspnea. On chest CT approximately one fifth of all patients showed post infectious changes in chest CT including evidence for myo-and pericarditis as well as accumulation of pericardial effusions.

SARS-CoV- 2 vaccine-induced Eosinophilic Granulomatosis with PolyAngiitis (EGPA)

Case report: A 63 y.o. man with known allergic rhinoconjunctivitis and mild asthma, sensitized to house dust mites, cat dander and grass and pellitory pollens, presented at the Emergency Department (ED) of our Hospital for diplopia, left temporo-parietal headache, fleeting knurled scotoma, and impaired color vision, associated with dry cough, occurring the day after the booster dose of the anti-SARS- CoV- 2 vaccine (mRNA-1273). Collecting clinical history, it emerged that 6 months before, just after the first vaccine dose (BNT162b2), he developed a progressive worsening of asthma, becoming severe and uncontrolled despite high dose inhaled corticosteroids plus long-acting beta2-agonists, montelukast and tiotropium bromide, and requiring maintenance oral corticosteroid treatment: any attempt to withdraw systemic corticosteroid was associated with exacerbations of asthma. During the access to the emergency room and the subsequent hospitalization, the following emerged: severe hypereosinophilia (12400 cells/mcl), left third cranial nerve palsy, elevated serum troponin, echocardiographic signs of acute myopericarditis with interventricular septal thickening, MRI signs of cardiac interventricular septal hypokinesia, and multiple pulmonary consolidations on CT scan. Serum ANCA was negative. The clinical presentation (asthma, third cranial nerve mononeuropathy, myopericarditis with signs of interventricular septal distress, typical lung involvement) associated with the finding of severe hypereosinophilia was suggestive of eosinophilic granulomatosis with polyagioitis (EGPA). Already in the emergency room, the patient was promptly treated with 3 boluses of methylprednisolone 1 g i.v. (1 bolus per dey). During the hospitalization he underwent the first cycle (out of 6 planned) of i.v. cyclophosphamide 1000 mg and initiated therapy with oral prednisone 75 mg/day (1 mg/kg/day). After the initiation of systemic corticosteroid therapy there was depletion of blood eosinophils, progressive reduction of serum troponin, resolution of cough and almost complete regression of 3rd cranial nerve palsy. At the time of submission, the patient was discharged and taken on an outpatient basis to continue therapy with cyclophosphamide and possibly associate mepolizumab as a steroid-sparing strategy. In conclusion, this is a case of EGPA arising after SARS-CoV- 2 vaccination. It has been described that vasculitis can be triggered by infectious episodes or vaccinations: to date only two other EGPA cases likely induced by anti-SARS- CoV- 2 mRNA vaccines have been described in the literature.

COVID-19 mRNA Vaccines: The Molecular Basis of Some Adverse Events.

Each injection of any known vaccine results in a strong expression of pro-inflammatory cytokines. This is the result of the innate immune system activation, without which no adaptive response to the injection of vaccines is possible. Unfortunately, the degree of inflammation produced by COVID-19 mRNA vaccines is variable, probably depending on genetic background and previous immune experiences, which through epigenetic modifications could have made the innate immune system of each individual tolerant or reactive to subsequent immune stimulations.We hypothesize that we can move from a limited pro-inflammatory condition to conditions of increasing expression of pro-inflammatory cytokines that can culminate in multisystem hyperinflammatory syndromes following COVID-19 mRNA vaccines (MIS-V). We have graphically represented this idea in a hypothetical inflammatory pyramid (IP) and we have correlated the time factor to the degree of inflammation produced after the injection of vaccines. Furthermore, we have placed the clinical manifestations within this hypothetical IP, correlating them to the degree of inflammation produced. Surprisingly, excluding the possible presence of an early MIS-V, the time factor and the complexity of clinical manifestations are correlated to the increasing degree of inflammation: symptoms, heart disease and syndromes (MIS-V).

COVID-19 Vaccine Cardiac Complications: A Case Series on Implications of Marijuana in Adolescents With Myopericarditis.

We report on two critically ill pediatric patients, aged 16 and 18 years, presenting with acute myopericarditis at a tertiary-care center in New Jersey, United States. Both patients had their severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccinations, tested negative for SARS-CoV-2, and shared only significant history of asthma. Clinical presentations were similar to acute onset chest pain that worsened with deep inspiration. One patient reported a history of vaping and escalating marijuana use several hours preceding presentation. Both patients had elevated troponin on admission and had ST-segment elevation on electrocardiogram (EKG), thus prompting admission to the pediatric intensive care unit (PICU) for cardiac monitoring. Myopericarditis has multiple etiologies and is a newly described rare complication of the SARS-CoV-2 vaccine. It can also occur as a complication of vaping and frequent marijuana drug use. Our paper highlights the importance of a detailed social and drug history in adolescents presenting with chest pain. The clinical characterization is necessary to promote better case definitions and the design of targeted interventions for this vulnerable group.

Purulent Pericardial Effusion with a Swinging Heart Post-Sars-Cov-2 Infection: A Case Report

Background Acute bacterial pericarditis is rare and can decompensate quickly to cardiac tamponade and cardiac arrest. Targeted antibiotic therapy, pericardiocentesis, and pericardiotomy are the cornerstones of management. Case 51-year-old male presented with 2-weeks of progressive chest pain, cough, and fatigue. A month prior he tested positive for COVID-19. On exam he was tachycardiac, tachypneic, and normotensive. JVD and peripheral edema were present. Labs revealed elevated WBC, BNP, HS-troponin, and ESR/CRP. Blood cultures were positive for methicillin susceptible Staphylococcus aureus (MSSA). Echo showed a large pericardial effusion with a swinging heart. ECG showed diffuse ST elevations and PR depression. He was not clinically in tamponade but shortly after became bradycardic and had a PEA arrest. Emergent bedside pericardiocentesis was performed, and after 9-minutes of ACLS, ROSC was attained. Pericardial fluid grew MSSA. Decision-making Vancomycin and cefepime were started and tapered to cefazolin to cover MSSA bacteremia and pericarditis. Repeat blood cultures were negative. A month after discharge he had no cardiac symptoms and echo showed minimal pericardial fluid. Conclusion In patients with COVID-19 and pericardial effusion, bacterial pericarditis can be secondary to contiguous spread from lung parenchyma or myopericarditis with superimposed infection, or due to primary pericarditis. This is the second reported case of spontaneous purulent pericarditis with MSSA. [Formula presented]Copyright © 2023 American College of Cardiology Foundation

The diagnostic utility of cardiac imaging (echocardiogram and cardiac MRI) in COVID 19 patients and cardiac complications: retrospective cohort study in Saudi Arabia

Background/Introduction: Coronavirus disease (COVID-19) continues to cause considerable morbidity and mortality worldwide. The complication in patients with severe COVID-19 disease include arrhythmias, perimyocarditis (PM), and heart failure (HF). Purpose(s): The important role of echocardiogram (ECHO) and cardiac MRI (CMRI) in the diagnosis of myocarditis in COVID-19 patients in Saudi Arabia has not been assessed. The objective is to assess the diagnostic value of ECHO and CMRI and define phenotypes patterns in the COVID-19 subgroup. Method(s): In this retrospective study, adults with suspected COVID-19 presented with dyspnea and cardiovascular comorbidities were studied between January 2021 and December 2021. We collected 329 patients, (LVEF by ECHO was 44+/-11%). Fifty-two percent (173/329), had HF (HFrEF or HFpEF), thirty-six percent presented with acute coronary syndrome ACS (120/329), and four percent had adult congenital heart disease (ACHD). CMRI was performed in 160 patients (LVEF is 40 +/-11%), and fifty-two were COVID-19 positive. CMRI Phenotypes patterns were described as normal, ischemic, or nonischemic (peri-myocarditis). LVEF was divided by CMRI as (EF>=50 or EF <50%). The average time interval from diagnosis to CMRI was 4-8weeks. Result(s): Sixty percent of patients (221/329) were confirmed COVID-19 infection, the mean age is 54+/-13 years. Ten patients were diagnosed with pulmonary embolism (2/10 were ACHD). peri-myocarditis patterns were found in sixty percent of COVID-19 patients (31/52), five percent (3/52) had an ischemic pattern, and thirty- five percent (18/52) had normal LGE. However, in COVID-19 negative patients, Eighty percent (85/108) had an ischemic pattern, and twenty percent (23/108) had normal LGE. Conclusion(s): In this observational study, CMRI confirms its high diagnostic tool in evaluating myocarditis activity. In COVID-19 patients, two third of the population were found to have peri-myocarditis, with half of them reporting LVEF was >=50 %.

Viralvector Covid19 Vaccine Related Constrictive Pericarditis a Case Report

Background COVID19 has emerged in the last 3 years thus different types of vaccines are massively administered globally which exhibit systemic and cardiac side effects mostly myocarditis and pericarditis. We present a case of a 29 YO completely healthy male, non-smoker with negative FHX of cardiac diseases, who developed acute pericarditis after the first dose of the "viral-vector" vaccine and evolved rapidly into constrictive pericarditis in 3 weeks duration. The patient started to complain of dyspnea III-IV and central chest pain relieved by bending forward day 3 post-vaccine, labeled at EMD with acute pericarditis. NSAID and colchicine were started & by 3rd-week outpatient follow-up. Despite a full adequate medx course, we found him to have persistent Dyspnea NYHA II with evidence of constrictive pericarditis on echocardiography, cCT and cMRI after 1 month. He refused myocardial biopsy. Methods we used the serial TTE studies showed small pericardial effusion <1cm and then signs of septal bounce, tran MV/TV respiratory variation and thickned pericardium, same features seen on cCT scan. In addition to a positive LGE on cMRI with 18 months follow-up. Results post vaccine constrictive pericarditis is not uncommon, early detection and appropriate management is the mainstay to avoid unwanted consequences. Conclusion Although there are many reports and registries of post-vaccine myo/pericarditis, the exact association is still unclear and requires further investigation. [Formula presented]Copyright © 2023 American College of Cardiology Foundation

One year follow up for case series of myocarditis following mRNA vaccination against SARS-CoV-2.

In 2021, the first rounds of modified mRNA vaccines against SARS-CoV-2 were tested and deployed. The vaccines themselves had great efficacy against severe infection, with rare and minimal side effects. One adverse effect that was reported, however, was incidence of myocarditis seen amongst mostly young males after their second vaccination dose. The disease course was self-limited. This study group published a case series in August of 2021 of four cases of this phenomenon. This paper is a followup to the original case series, providing an updated literature review and expert recommendations concerning the safety and benefits of the vaccines.

A case of fatal multi-organ inflammation following COVID-19 vaccination.

A 14-year-old Japanese girl died unexpectedly 2 days after receiving the third dose of the BNT1262b2 mRNA COVID-19 vaccine. Autopsy findings showed congestive edema of the lungs, T-cell lymphocytic and macrophage infiltration in the lungs, pericardium, and myocardium of the left atria and left ventricle, liver, kidneys, stomach, duodenum, bladder, and diaphragm. Since there was no preceding infection, allergy, or drug toxicity exposure, the patient was diagnosed with post-vaccination pneumonia, myopericarditis, hepatitis, nephritis, gastroenteritis, cystitis, and myositis. Although neither type of inflammation is fatal by itself, arrhythmia is reported to be the most common cause of death in patients with atrial myopericarditis. In the present case, arrhythmia of atrial origin was assumed as the cause of cardiac failure and death. In sudden post-vaccination deaths, aggressive autopsy systemic search and histological examination involving extensive sectioning of the heart, including the atrium, are indispensable.

COVID-19 mRNA vaccines and myopericarditis.

Globally, vaccination against COVID-19 has prevented countless infections, hospitalisations and death and represents the most successful intervention in combating the pandemic caused by SARS-CoV-2 infection. Utilisation of existing mRNA vaccine technology has allowed for rapid development of highly immunogenic and effective vaccines. Myopericarditis can occur as an adverse effect of COVID-19 mRNA vaccination, albeit at significantly lower rates than those that occur during SARS-CoV-2 infection. Higher rates are seen in adolescent males, usually within 1-5 days of receiving the second vaccine dose. Although most cases are self-limited and respond to first-line treatment, refractory cases can occur, with a limited evidence base on which to guide management. Here, we present a brief review of COVID-19 mRNA vaccines and associated myopericarditis including risk factors, proposed mechanism, and treatment including management strategies for refractory disease.