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Background: Among patients with COVID-19 infection, the risk of adverse cardiovascular outcome, particularly myocarditis and dysrhythmias remain elevated at least up to one year after infection. We present a case of atrial tachycardia and atrial Torsades de Pointes from COVID myocarditis, persisted 6 months after infection, which was successfully managed by ablation. Objective(s): A 25-year-old female presented with mild COVID-19 infection, Omicron variant, in May 2022. One month after, her Covid infection resolved;she presented with symptomatic atrial tachycardia, paroxysmal atrial fibrillation and flutter. ECG showed multiple blocked premature atrial contractions (PAC) (Figure 1A). Holter monitor showed PAC triggered atrial tachycardia degenerating to paroxysmal atrial fibrillation, atrial Torsades de Pointes. She has mild persistent troponin elevation. Echocardiography was normal. Cardiac MRI showed evidence of mild myocarditis with subepicardial late Gadolinium enhancement (LEG) along the lateral mid-apical left ventricular wall and edema. (Figure 1B). She was treated with Colchicine for 2 months. Repeat cardiac MRI 4 months after COVID infection showed resolution of edema and LGE. However, her symptomatic PAC and atrial tachycardia did not respond to betablocker and amiodarone. She underwent electrophysiology study. Activation mapping of PAC using CARTO revealed earliest activation at the right anterior atrial wall, with close proximity to tricuspid valve;unipolar signal showed QS pattern, bipolar signal showed 16 msec pre-PAC (Figure 1C and 1D). Mechanical pressure from ThermoCool SmartTouch ablation catheter (Biosense Webster Inc.) at this site suppressed the PAC. Radiofrequency ablation resulted with an initial acceleration and then disappearance of the PAC. We did not isolate pulmonary veins or ablate cavotricuspid isthmus. Post ablation, PAC and atrial fibrillation were not inducible on Isoproterenol. Method(s): N/A Results: Covid myocarditis can result in dysrhythmia that lingers long after Covid myocarditis has resolved. Covid myocarditis can be caused by direct viral invasion of myocytes or more commonly is inflammatory related to cytokine release and edema. Our case demonstrates that dysrhythmias can persist despite resolution of myocarditis. Catheter ablation can successfully to treat these arrhythmias. Conclusion(s): This case highlights the importance of recognizing cardiac dysrhythmia as possible the long-term cardiac complications of COVID-19, requiring specific treatment such as catheter ablation. [Formula presented]Copyright © 2023
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SESSION TITLE: Drug-Induced and Associated Critical Care Cases Posters 1 SESSION TYPE: Case Report Posters PRESENTED ON: 10/19/2022 12:45 pm - 01:45 pm INTRODUCTION: The use of remdesivir in critical care setting has been utilized treatment of covid, but not without risk. Many cases have reported severe cardiac effects with bradycardia being the most common. CASE PRESENTATION: The patient was a 15-year-old female with a history of asthma, hyperinsulinemia who required hospitalization for acute hypoxic respiratory failure secondary to COVID-19 pneumonia. She received ceftriaxone, azithromycin, and a 10-day course of remdesivir (RDV). On her third day of admission, the patient developed significant sinus bradycardic with heart rate nadir of 30-40 bpm but denied any symptoms. She completed her remdesivir course on day five of hospitalization and was discharged on day nine with a heart rate of 47 bpm. She later presented to ED the night of discharge following acute onset of lightheadedness and blurry vision at home secondary to orthostatic hypotension and bradycardia. Her pulse was 48 bpm, temperature 36.1 C, respirations 24/min, blood pressure 119/50 mmHg and SpO2 99% on room air. Her physical exam was unremarkable. EKG showed sinus bradycardia with a PR interval of 124 ms and QTc of 406 ms. Echocardiogram showed normal cardiac anatomy and function. Patient was diagnosed with persistent RDV-associated bradycardia and discharged home with a Holter monitor and cardiology follow-up. Bradycardia resolved by her follow-up visit two weeks later. DISCUSSION: According to the WHO pharmacovigilance database, bradycardia is a relatively new adverse effect and 3.6% of the 2,603 adverse effects reported since the onset of the pandemic, with 2 million RDV doses administered during this time [1]. The mechanism of RDV-associated bradycardia is proposed to be an effect of adenosine triphosphate, an active metabolite, which reduces SA node automaticity via stimulation of vagal nerve, as well as RDV cross-reactivity with mRNA polymerase, leading to cardiotoxicity that usually resolves within 24 hours of medication discontinuation. In our patient's case bradycardia did not resolve until eight days after discontinuation of medication [2]. Review of previously case reports does not identify any association with patient age but could be related to timing of when medication reaches therapeutic window, as many patients had onset of bradycardia on day 3 of treatment [3]. We report a pediatric case of severe acute COVID-19 who developed sinus bradycardia on day 3 of RDV treatment as previously described, but the bradycardia persisted long after the discontinuation of RDV. CONCLUSIONS: With over 50 thousand pediatric COVID-19 hospitalizations to date, this case serves as a timely reminder that medication side effects should be monitored closely, and that more research needs to be done into the effects of RDV on cardiac function in pediatric patients. Reference #1: Jung SY, Kim MS, Li H, Lee KH, Koyanagi A, Solmi M, Kronbichler A, Dragioti E, Tizaoui K, Cargnin S, Terrazzino S, Hong SH, Abou Ghayda R, Kim NK, Chung SK, Jacob L, Salem JE, Yon DK, Lee SW, Kostev K, Kim AY, Jung JW, Choi JY, Shin JS, Park SJ, Choi SW, Ban K, Moon SH, Go YY, Shin JI, Smith L. Cardiovascular events and safety outcomes associated with remdesivir using a World Health Organization international pharmacovigilance database. Clin Transl Sci. 2022 Feb;15(2):501-513. doi: 10.1111/cts.13168. Epub 2021 Oct 31. PMID: 34719115;PMCID: PMC8841455. Reference #2: Touafchia A, Bagheri H, Carrié D, Durrieu G, Sommet A, Chouchana L, Montastruc F. Serious bradycardia and remdesivir for coronavirus 2019 (COVID-19): a new safety concerns. Clin Microbiol Infect. 2021 Feb 27;27(5):791.e5–8. doi: 10.1016/j.cmi.2021.02.013. Epub ahead of print. PMID: 33647441;PMCID: PMC7910147. Reference #3: Rau, Cornelius MPhil;Apostolidou, Sofia MD;Singer, Dominique MD, PhD;Avataneo, Valeria PhD;Kobbe, Robin MD Remdesivir, Sinus Bradycardia and Therapeutic Drug Monitoring in Children With Severe CO
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COVID-19 infection predisposes patients to a hypercoagulable state. The clinical significance of concomitantly positive antiphospholipid antibodies as a risk factor for thrombus formation is unknown. We report a case of renal infarct secondary to COVID-19 infection with mildly elevated antiphospholipid antibodies. A 71-year- old woman with a history of hypertension, supraventricular tachycardia, resected carcinoid tumor in remission, COVID-19 infection (20 days prior), presented to the hospital with acute onset severe left lower quadrant pain radiating to the left flank for one day. She reported a fever of 101 F. Vital signs were normal in the emergency room. Physical exam showed left costovertebral angle tenderness, otherwise benign abdomen with no guarding or rigidity. Laboratory findings showed normal liver function tests, mildly elevated creatinine at 1.1 mg/dl (baseline 0.8 mg/dl), and leukocytosis (14.2 K/ul). Urinalysis showed no evidence of proteinuria or microscopic hematuria. CT scan of the abdomen demonstrated a large area of patchy hypoattenuation involving the upper pole and interpolar region of the left kidney with adjacent perinephric inflammation representing a sequela of an infarct. Hypercoagulable workup including HIV, hepatitis, ANA, ANCA, complements, B2 glycoprotein, homocysteine, factor V Leiden, anti-thrombin III, protein C, protein S were done. All tests resulted negative except for mildly elevated anticardiolipin antibody, IgM 12.90 MPL (normal 0.00-12.49 MPL). Holter monitor was negative for atrial fibrillation. An echocardiogram did not show any thrombus. Considering her negative tests, renal infarct was believed to be secondary to a hypercoagulable state from COVID-19 infection. Antiphospholipid antibodies repeated 3 months after this admission were mildly elevated. Renal infarction was treated with a heparin infusion and was subsequently transitioned to apixaban. Acute kidney injury resolved with intravenous fluid resuscitation. At a 3-month follow-up, her renal function remained stable with a resolution of symptoms. Renal artery infarct is a possible thrombotic complication of COVID -19. Role of lupus anticoagulant antibodies in increasing this risk warrants further studies.
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Ischaemic strokes secondary to atrial fibrillation (AF) have a high morbidity and mortality thus, detection of AF post stroke is crucial for secondary prevention. Cardiology services were already struggling to provide timely Holter monitoring and the COVID-19 pandemic resulted in further delays. We collaborated with an external company to deliver adhesive ambulatory electrocardiographic monitors (AECG) to patient's homes which ensured compliance with infection control measures to reduce investigation wait times. We conducted a retrospective study looking at AF detection rates when changing from a traditional 24-hour Holter monitor to a 7-day AECG which was delivered and collected from patients' homes during the pandemic. 78 patients were included in this study. 37 patients had a 24-hour Holter monitor applied and removed by a health care professional in an outpatient setting. 41 patients had a 7-day AECG posted to their home where it was self-administered, removed and collected by a courier. AF was detected in a total of 7 patients. 1 out of 37 (1.2%) patients were found to have AF in the 24-hour Holter monitor group. 6 out of 41 patients (7.7%) were found to have AF when using AECG monitors. We conclude that 7-day AECG monitoring is more effective at detecting AF than 24-hour Holter monitoring. The model of a self-administered monitoring device with a longer observation period helps to reduce wait times for ambulatory monitoring whilst improve the detection rate of AF when used during the COVID-19 pandemic and may be beneficial for use in the future.
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Background: Louis-Dietz syndrome (LDS) Type 3 is a rare disorder caused by an autosomal-dominant mutation in SMAD-3, altering the TGF-β pathway. LDS Type 3 typically manifests as aortic aneurysms and early-onset osteoarthritis, however other dermatologic, cardiovascular, and skeletal abnormalities have been reported. Case: A 51-year-old woman was referred to the cardiology clinic for episodes of palpitations, syncope, chest pain, and shortness of breath during the COVID-19 pandemic. She had a history of congestive heart failure, cardiomyopathy, patent foramen ovale, atrial septal aneurysm, pre-COVID myocarditis, mitral valve prolapse, mitral regurgitation, and pericarditis. She also has a pertinent medical history of hypermobile Ehlers-Danlos syndrome (hEDS) and systemic lupus erythematosus (SLE). Her family and social history were remarkable for a daughter with SLE. Cardiopulmonary and general physical exams were remarkable for hypermobility. Evaluation with an ECG and Holter monitor showed normal sinus rhythm with unifocal premature ventricular contractions (PVCs) that correlated with her symptoms. Decision-making: The patient was initially managed un-successfully with beta and calcium channel blockers. Cardiac ablation was subsequently performed on a left ventricular septal focus with remote magnetic navigation using the Niobe system from Stereotaxis inc. (due to its low risk for cardiac perforation). At 6 months follow up, the patient exhibited an increase in left ventricular ejection fraction from 40-50% to 55-60%, fewer symptoms, and fewer PVCs. She was later diagnosed with a right internal carotid artery aneurysm that prompted genetic testing that was positive for LDS Type 3. Conclusion: This patient’s unique combination of illnesses required a multidisciplinary team for management. The Stereotaxis robotic system safely and successfully treated the patient’s PVCs and resulted in improvement of left ventricular function. Due to previous reports of arrhythmias associated with these connective tissue disorders, additional studies are necessary to understand the role of the SMAD-3 mutation, EDS, and SLE in contributing to arrhythmogenicity.
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Cardiac arrhythmias are important causes of death among populations and are always responsible for a high percentage of mortality in hospitalized patients. The aim of this descriptive analytical study was to evaluate the frequency of arrhythmias in patients with coronavirus disease 2019 (COVID-19) in the Shahid Mostafa Khomeini Hospital of Ilam from March to August 2020. All the COVID-19 patients with a cardiac condition admitted to the intensive care unit were enrolled in the study by census. Electrocardiography (ECG) and Holter monitoring were used to diagnose arrhythmias. Data analysis was performed in Microsoft Excel using descriptive statistics (frequency and percentage). The total number of eligible patients was 45, of whom 26 (57.8%) were men and 19 (42.2%) were women. The mortality rate of arrhythmias among COVID-19 patients was 17.77% (8 out of 45 patients), and the recovery rate was 82.13% (37 out of 45 patients). Tachycardia and a lack of response to heart-rate-reducing drugs were observed in patients with COVID-19. Owing to an overlap between these symptoms and those of heart diseases, there is a need to further evaluate patients with arrhythmias. Although arrhythmias are not common in COVID-19 patients, they can be fatal and have a high mortality rate, which can be prevented by early detection.