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Aim. To determine the prevalence and show the features of the development of newly diagnosed heart failure (HF) in patients with dyspnea after a coronavirus disease 2019 (COVID-19). Material and methods. This clinical prospective observational study was conducted during 2020-2022. The study consecutively included 368 outpatients with shortness of breath, who applied to the clinic. Depending on the presence of prior COVID-19, the patients were divided into 2 groups: the first group consisted of 205 patients with shortness of breath after COVID-19, the second group - 163 patients without prior COVID-19. All patients underwent a clinical examination within 3 days after presentation with an assessment of outpatient records and other medical documents for the differential diagnosis of dyspnea. The severity of dyspnea was determined using the Modified Medical Research Council Dyspnoea Scale (mMRC). The diagnosis of HF was verified in accordance with the 2020 Russian Society of Cardiology guidelines and in some cases reclassified in accordance with the 2021European Society of Cardiology guidelines. For further analysis, 2 subgroups of patients with HF were identified depending on the presence and absence of prior COVID-19. The subgroup analysis excluded patients with acute heart failure, acute illness, and conditions requiring hospitalization and/or intensive care. Results. Among 368 patients who presented to the clinic with dyspnea during 2020-2022, 205 patients (55,7%) had COVID-19. The average period of treatment after COVID-19 was 3,5 [1,5;22,4] months. Patients after COVID-19 applied earlier after the onset of dyspnea, which is associated with higher mMRC score. The prevalence of HF among patients with shortness of breath after COVID-19 was significantly higher than in patients without this pathology in history, and amounted to 19,0% vs 9,8% (p=0,021). Prior COVID-19 increased the relative risk (RR) of HF in patients with shortness of breath by 1,7 times. RR for HF in systolic blood pressure >140 mm Hg increased by 1,9 times, while in diastolic blood pressure >90 mm Hg - by 1,9 times, with the development of a hypertensive crisis - by 28%, with a heart rate >80 bpm at rest - by 1,4 times, with the development of type 2 diabetes - by 31%, in the presence of pulmonary fibrosis - by 2,3 times. Patients with shortness of breath after COVID-19 had more severe HF, both according to clinical tests and according to the blood concentration of N-terminal pro-brain natriuretic peptide (NT-proBNP), mainly with the preserved ejection fraction (EF) with a higher prevalence of left atrial (LA) enlargement in combination with a decrease in right ventricular (RV) systolic function and its dilatation. In patients after COVID-19 in the presence of chronic kidney disease, the RR for HF increased by 4,5 times;in the presence of C-reactive protein >4 mg/l - by 1,6 times. Conclusion. Every fifth patient with shortness of breath 3,5 months after COVID-19 had more severe HF, both according to clinical tests and according to blood NT-proBNP concentration, mainly with preserved EF with a higher prevalence of LA increase in combination with a decrease in RV systolic function and its dilatation. The risk of HF is interrelated with the female sex and multiple comorbidities.Copyright © 2023, Silicea-Poligraf. All rights reserved.
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Background: Many EP procedures are moving from the hospital to the ambulatory surgery center (ASC) outpatient setting. The COVID-19 pandemic and the CMS Hospitals Without Walls (HWW) program has been an impetus in accelerating this transition. Anesthesia provider perioperative management is critical in facilitating safe procedures with rapid, same-day discharge. Our EP-dedicated 2-OR ASC completed more than 3,000 procedures and more than 500 left-sided ablations utilizing general anesthesia with endotracheal intubation with same-day discharge. To our knowledge, this experience is unique within an ASC setting in both volume and complexity. Objective(s): We present our comprehensive anesthesia strategy and lessons learned to facilitate safe, efficient procedures and discharge in an EP ASC. Method(s): A nurse anesthesiologist with more than a decade of EP-dedicated experience developed and taught a perioperative anesthesia strategy to facilitate high volume, safe and quick discharge care. Fundamental to this is the avoidance of opioids and benzodiazepines whenever possible. Propofol or general anesthesia with sevoflurane and complete reversal with sugammadex allow for quick recovery. Mandatory video laryngoscope utilization minimizes airway trauma, while liberal antiemetic use eliminates most nausea. All femoral access is device closed. Positive inotropes are used liberally during anesthetic to avoid heart failure. The goal is to deliver all patients to PACU on room air with stable hemodynamics. Anesthesia providers manage the preop and recovery area. Result(s): More than 90% of all patients undergoing general anesthesia and heparinization for left-atrial ablation were discharged home in under 3 hours. Nearly all procedures not requiring femoral access were discharged within 30-60 minutes. High procedure volumes with efficiencies far exceeding our in-hospital experience were thus facilitated with improved patient safety. Since HWW began, five patients have required transfer to the hospital without any deaths. All others were discharged same day. Conclusion(s): We suggest that a dedicated anesthesia team with a tailored perioperative anesthesia plan facilitates performing nearly all EP-related surgical procedures in an ASC. This success is facilitated by appropriate patient selection, preoperative evaluation, intraoperative care prioritizing quick return to baseline, and end-to-end anesthesia perioperative management. We believe this type of anesthesia management is critical to the transition of EP procedures to ASCs.Copyright © 2023
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Background: Ictal-induced cardiac bradyarrhythmia and asystole is a rare phenomenon. The exact mechanism of ictal-induced cardiac bradyarrhythmia and asystole remains unclear. It was postulated that stimulation of central autonomic network during ictal episode may trigger an abrupt burst of hypervagotonia. Prolonged episode of cardiac bradyarrhythmia and asystole may result in syncope or death due to impairment of cerebral perfusion. The role of cardioneuroablation (CNA) in this condition has not been well-described in the literature. Objective(s): To describe a case of successful CNA in a patient with ictal-induced bradyarrhythmia and asystole. Method(s): n/a Results: A 47-year-old female has a 1.5-year history of intractable focal epilepsy and COVID-19 infection. She started having multiple episodes of seizures following a mild COVID-19 infection. Electroencephalogram (EEG) and brain MRI revealed right temporal onset seizures without structural lesions. Due to ongoing uncontrolled seizures with multiple semiologies despite multiple anti-epileptic drugs, she was admitted to Epilepsy Monitoring Unit for seizure classification. Her ictal EEGs (Figure 1) showed onset of ictal rhythm in the right temporal region with episodes of severe sinus bradycardia (15-30 bpm) and sinus pauses (15-16 seconds). Telemetry tracings demonstrated PP interval slowing with PR interval prolongation prior to the pauses consistent with a vagally-mediated mechanism. Cardiac electrophysiology team recommended CNA for treating the episodes of ictal-induced bradyarrhythmia and asystole. 3D anatomic maps of the right atrium (RA) and left atrium (LA) were created using CARTO system (Biosense Webster). Right superior ganglionated plexus (RSGP) was localized with fractionation mapping and intracardiac echocardiography guidance. RSGP was targeted from the RA using an irrigated radiofrequency catheter with power limit of 25 W. Post-ablations of RSGP, her heart rate increased from 60 - 99 bpm. Additional lesions were delivered from the LA site but no additional heart rate increase was not seen. An implantable loop recorder was implanted post-ablation procedure. During follow-up of 8 months, she had recurrent focal epilepsy, but no bradyarrhythmias or asystole was noted on her loop recorder. Resting heart rates at long-term follow up were between 70 - 100 bpm. Conclusion(s): This case highlights the utility of CNA in patient with ictal-induced cardiac bradyarrhythmia and asystole. CNA may be an approach to avoid permanent pacemakers in this population. [Formula presented]Copyright © 2023
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Background: Longitudinal Strain (LS) pattern in cardiac amyloidosis (CA) typically spares the apex of the heart, which is a sensitive and specific finding that can be used to distinguish CA from other causes of left ventricular (LV) hypertrophy. RELAPS >1 suggests with high specificity CA, and shows a bright red in the apical segments of the polar map. Purpose(s): To identify differential echocardiographic characteristics of aortic stenosis (AS) with concomitant TTR-CA (AS-CA) compared to AS alone. Method(s): Patients with severe symptomatic AS undergoing TAVI were prospectively and consecutively included between Jan-19 and Dec-20. Pre-procedure, a complete echocardiogram was performed that included deformation parameters using Speckle-Tracking. Strain derived Indices accepted for CA screening were calculated: RELAPS: Relative apical LS (average apical LS/average basal+mid LS);SAB: (apical-septal/basal-septal LS);EFSR: (LVEF/GLS). After TAVI, a 99Tc-DPD scintigraphy and a proteinogram were performed to screen for CA. Result(s): 324 patients were included. The mean age was 81 yo, 52% women. 39 (12%) patients presented cardiac uptake on scintigraphy: 14 (4.3%) grade 1;13 (4%) grade 2, and 11 (3.4%) grade 3. Strain analysis could be performed in 243 patients due to acoustic window and covid19 pandemic restrictions. Echocardiographic characteristics between AS alone and those with grade 1 (AS-DTD1) and grade 2/3 (AS-CA) are shown in Table 1. Compared with AS alone, patients with AS-CA had significantly lower transvalvular gradients, although similar AVA, and low flow-low gradient (LF-LG) AS was more prevalent. AS-CA exhibited slightly worse cardiac remodeling (LV mass ind: 202 g/m2 vs 176 g/m2, p=0.032), and worse diastolic dysfunction, but without significant differences in thickness, diameters or volumes, with similar relative wall thickness (RWT: 0.53 vs. 0.51 mm, p=0.52). LVEF was similar, however myocardial contraction fraction (MCF= stroke volume/myocardial volume) and MAPSE were worse in AS-CA. GLS, RELAPS, SAB and EFSR were not different, but RELAPS >1 pattern was more prevalent in AS-CA (74% vs 44%, p=0,006) (Figure 1). Mass/strain ratio (RMS) was similar. There were no differences in size and fractional emptying of left atrium, or atrial septum thickness. Right ventricle (RV) size was similar, as well as conventional function parameters (TAPSE and S'). However, RV LS was worse in AS-CA. Pericardial effusion was more prevalent in AS-CA (25% vs 7.4%, p=0.013). In the multivariate analysis, predictors of AS-CA were: Age (OR: 1,2, p=0,02), BG (OR: 0,2, p=0,01), E/A (OR: 4,7, p=0,02), LV Mass index (OR: 1,02, p=0,04) and RELAPS >1 (OR: 0,12, p=0,01). Conclusion(s): Dual pathology of AS-AC is common in older patients referred for TAVI. Although it is more prevalent in patients with AS-CA, RELAPS>1 pattern can be present in almost 50% of patients with severe AS alone, which reduces its value as screening tool for CA in this clinical setting respect to others. (Table Presented).
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Introduction: It is estimated that 15% of patients with AS have concomitant cardiac amyloidosis (CA). Left ventricular (LV) longitudinal strain (LS) pattern with relative apical sparing (RELAPS>1), shown as bright red in the apical segments on the polar map, has been strongly associated with CA. Its presence and its significance in AS is yet to be determined. Purpose(s): To determine the prevalence of the RELAPS>1 pattern in patients with severe AS with and without concomitant CA, and to analyze the echocardiographic phenotype associated with this strain pattern and its prognostic value. Method(s): Patients with severe symptomatic AS undergoing TAVI were prospectively and consecutively included between Jan-19 and Dec-20. Pre-procedure, a complete echocardiogram was performed that included deformation parameters using Speckle-Tracking. Strain derived Indices accepted for CA screening were calculated: RELAPS: Relative apical LS (average apical LS/average basal+mid LS);SAB: (apical-septal/basal-septal LS);EFSR: (LVEF/GLS). After TAVI, a 99Tc-PYP scintigraphy and a proteinogram were performed to screen for CA. Result(s): 324 patients were included. The mean age was 81 yo, 52% women. Strain analysis could be performed in 243 patients due to acoustic window and covid19 pandemic restrictions. Among those, 111 (46%) presented relative apical sparing (RELAPS>1). There were no differences in clinical characteristics between patients with RELAPS <1 and >1: Similar age, sex, cardiovascular risk factors and funcional class, renal function or NT-proBNP. Among patients with RELAPS>1 there was more frecuently CA with uptake grade 2 and 3 on scintigraphy (15% vs. 4.5%, P=0.006) (Figure 1). RELAPS>1 group showed greater LV hypertrophic remodeling: Thicker myocardial wall with smaller ventricular cavity, especially concentric hypertrophy;LVEF and GLS was similar, however, MAPSE and myocardial contraction fraction (MCF) were worse in RELAPS >1 group, and EFSR was significantly higher (4.2 vs 3.9, p=0.002). RELAPS >1 group had smaller aortic valve area (AVA: 0.6 vs 0.7 cm2, p=0.045), but similar transvalvular gradients due to lower stroke volume. It had larger atria and less left atrial (LA) fractional emptying, as well as higher prevalence of atrial fibrillation (AF: 41% vs 27%, p=0.03). Right ventricle (RV) size were similar, however, RV function was worse in RELAPS >1 group (TAPSE: 19 vs 21 mm, p=0.003;free Wall LS: -24 vs -27%, p=0.008). There was no difference in all-cause mortality at 1 year of follow-up between groups (6.4% vs. 6.3%, p=1). Figure 2 represents the morphological characteristics according to the LS phenotype. Conclusion(s): In severe AS, RELAPS >1 is present in almost half of the patients. It is associated with worse cardiac remodeling, as well as higher prevalence of AF. However, it wasn't associated with higher mortality at 1 year. 1 in 7 patients with AS and RELAPS >1 have concomitant ATTR CA grade 2/3.
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Background: While immune checkpoint inhibitors (ICI) -induced myocarditis and coronavirus disease 2019 (COVID-19) vaccine-induced myocarditis are considered to be rare;they are both significant side effects, suggested being caused by activation of the immune system against the myocardium. We aimed to assess whether both phenomena share similar presenting characteristics. Method(s): We included patients diagnosed with either ICI or COVID-19 vaccine-induced myocarditis at our medical center. We performed a retrospective assessment of clinical presentation, blood tests, and advanced echocardiography, including speckle strain. Result(s):We included 18 patients diagnosed with ICI (ICI group) or COVID- 19 vaccine (COVID-19 group)-induced myocarditis, and 20 patients with viral myocarditis (Viral group) as a control group. The median age was significantly older in the ICI group (74 years) compared to the COVID-19 and Viral groups (20 and 24 years), p<0.001. The clinical presentation in the COVID-19 group was more similar to the Viral group, presenting mainly with chest pain and fever, while the ICI group presented mainly with dyspnea. ST-elevation was frequent in the COVID-19 and Viral groups and absent in the ICI group, p=0.004. Median peak high sensitivity troponin I values were markedly lower in the ICI group compared to the COVID-19 and Viral groups (619 ng/L vs. 15527 ng/L vs. 7388 ng/L, p=0.004). While the median left ventricular ejection fraction was 60% among all groups, patients in the ICI group presented with mean lower LV global longitudinal strain (-13%) and left atrial conduit strain (17%), compared to the COVID-19 (-17% and 30%) and Viral groups (-18% and 37%), p=0.016 and p=0.001. Conclusion(s): While the suspected mechanism is an activation of the immune system in both ICI and the COVID-19 vaccine-induced myocarditis, we found that the clinical presentation, cardiac biomarkers, and advanced echocardiography of the COVID-19 vaccine, are more similar to viral myocarditis than to ICI-induced myocarditis.
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Background: The Coronavirus Disease 2019 (COVID-19) pandemic has transformed health systems worldwide. There is conflicting data regarding the degree of cardiovascular involvement following infection, generating uncertainty in patients and an additional healthcare burden with increased diagnostic testing. A registry was designed to evaluate the prevalence of echocardiographic abnormalities in Latin American adults recovered from COVID-19. Method(s): We prospectively evaluated 595 participants (mean age 45.5+/-14.9 years;50.8% female) from 10 institutions in Argentina and Brazil. Echocardiographic studies were conducted with General Electric equipment;2DE imaging and global longitudinal strain (GLS) of both ventricles were performed. Comparisons between groups were made with Chisquare, Fisher and Student's t-test. Logistic regression was performed to determine variables associated with abnormal echocardiogram findings. Result(s): A total of 61.7% of the participants denied any relevant cardiovascular medical history. Table 1 summarizes the comorbidities of the included patients. The majority of patients (82.5%) had the disease at home or in an out-of-hospital center. Of the patients who required hospitalization, 15.3% were in a general ward, 1.9% in intensive care and 0.3% required mechanical ventilation during the disease. The median time between infection and performance of the echocardiographic study was two months (IQR 1- 3 months). Among patients who reported symptoms following COVID-19 recovery (41.8%), the most frequently reported was dyspnea (47.4%), followed by mild symptoms such as asthenia, arterial hypertension or palpitations (32.9%), 12.9% referred chest pain, 6% of patients reported dyspnea and chest pain, and 0.8% reported various other symptoms. The mean left ventricular ejection fraction (LVEF) was 61.0+/-5.5% and the mean left atrial volume was 33.1+/-13.2 ml/m2. In patients without prior comorbidities, 8.2% had some echocardiographic abnormality (Figure 1). We found no significant differences in LVEF between symptomatic and asymptomatic patients (61.4% versus 60.6% respectively, p=0.104). Symptomatic patients showed slightly reduced GLS (-20.3% versus -20.9%, p=0.012) with a trend in the same direction in the RV free wall GLS (-25.6% versus -26.3%, p=0.103). Male patients were more likely to have any new echocardiographic abnormalities (OR 2.82, p=0.002). Time elapsed since infection resolution (p=0.245), the presence of symptoms (p=0.927), or history of hospitalization during infection (p=0.671) did not have any correlation with echocardiographic abnormalities. The difference between sexes remains unchanged after adjusting for left atrial volume, wall thicknesses, diastolic function and abnormal wall motion. Conclusion(s): Our results suggest that cardiovascular abnormalities after COVID-19 infection are rare and usually mild, especially in cases of mild disease. These abnormalities may be more frequent among males.
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Objective: To evaluate the need for cardiac monitoring of unselected patients recovered from COVID-19 and to estimate the risk of development of arrhythmias after severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Result(s): Presence of significant pathology detected was rare (one paroxysmal atrial fibrillation in 73-year-old woman with dilated left atrium;71-year-old man with atrioventricular blockade with indication for implantation of the pacemaker, when cardiac MRI didn't find any signs of myocardial inflammation. After evaluation both were not related to previous SARS-CoV-2 infection. During one-year follow-up after COVID-19 infection there was no change in heart rate variability evaluated by SDNN (V1 vs V3 156.6+/-40.6 vs 156,0+/-38.0;p = 0.855), rMSSD (V1: 33+/-13.95 to 30.6+/-12.89;p = 0.175) and triangle (V1: 28.5+/-7.8 to 29.5+/-8.8;p = 0.488). Dividing heart rate oscillations into low-frequency (LF), and high-frequency (HF) bands, we have found statistically significant changes between V1 a V3 for LF (718+/-433.7 to 646+/-361;p = 0.024) and HF (341.5+/-335 to 268.0+/-266;p = 0.032). These parameters are mostly affected by breathing rate and are representing possible autonomic dys-regulation (HF/LF ratio). Conclusion(s): Despite many information regarding cardiac impairment of SARS-CoV2 our study does not suggest an increased risk of development of arrhythmias after severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) even in a population with high proportion of ongoing symptomatology. Some findings may suggest autonomic dysfunction after COVID-19. Based on our results the routine ECG monitoring is currently not recommended after COVID-19 recovery.
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Objectives: Considering the risk of aerosolization during the COVID-19 pandemic associated with transesophageal echocardiography (TEE), we evaluated the diagnostic performance of cardiac computed tomography (CCT) before pulmonary vein isolation (PVI) in comparison to semi-invasive TEE in excluding left atrial (LA)/LA appendage (LAA) thrombus, limiting the need for TEE to only patients with possible thrombus on CCT. Material(s) and Method(s): We included a total of 145 consecutive patients with atrial fibrillation (AF) (age 52.4 +/- 10.3 years;63% males;89 paroxysmal AF) referred for radiofrequency ablation in National Cardiovascular Center Harapan Kita, Jakarta, Indonesia. All patients underwent preprocedural single-phase 128-slice multidetector CT and subsequent TEE as the reference standard with a mean time interval of 6.5 +/- 5.3 days between the two procedures. Result(s): CCT identified 30 patients (20.7%) with a filling defect in the LA/LAA, 8 of which were confirmed by TEE as thrombi (22 false positives and 8 true positives), whereas 9 true thrombi (6.2%) were detected by TEE (1 false negative by CCT). The sensitivity and specificity of CCT were 88.9% and 83.8%, respectively, with a positive predictive value of 26.8% and a negative predictive value of 99.1%. The overall accuracy was 84.1%. Conclusion(s): Apart from being a planned preparation modality before PVI, CCT is sufficient and could be used as an initial step to exclude the presence of LA/LAA thrombus, limiting the invasive TEE only for confirmation of the thrombus if detected by CCT.
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Aim: To study the systolic function (SF) and diastolic function (DF) of the heart and to assess subclinical myocardial right ventricular (RV) dysfunction in pts after severe COVID-19. We examined 23 males aged 46-70 years (mean age - 58.8 +/- 12.6 yrs) discharged after COVID-19 (50-75% of the parenchymal damage) with exertional dyspnea. We performed transthoracic echocardiography (TTE) with assessment of RV global longitudinal strain (RV-GLS) and right ventricular free wall longitudinal strain (RVLS) using speckle tracking echocardiography. Result(s): The SF of the RV assessed by the excursion of the tricuspid valve ring (TAPSE) was preserved (2.1 +/- 0.6 cm) in all pts under study after severe COVID-19. The left ventricular (LV) ejection fraction was also preserved (62.1 +/- 4.7%) in all pts. TTE revealed normal ventricular and atrial dimensions: LV end-diastolic volume index (62.5 +/- 8.4 ml/m2) and RV end-diastolic diameter (2.7 +/- 0.6 cm), left atrial (LA) volume index (26.7 +/- 3.1 ml/m2) and right atrial (RA) volume index (20.2 +/- 4.5 ml/m2). LV DD was also detected: Grade I in 17 (74%) pts, and Grade II in 6 (16%) pts. Moderate pulmonary hypertension (PH) was present in all pts (time of acceleration of systolic flow in the pulmonary artery (AcT - 85.0 +/- 7.9 msec) as a consequence of significant pulmonary parenchymal involvement. We found reduced RV-GLS (-17.4 +/- 2.7%) and free wall RVLS (-18.9 +/- 3.1%) in 23 (100%) pts. Conclusion(s): Preserved LV and RV SF with Grade 1 and Grade 2 LV DD and moderate PH were established in pts after severe COVID-19. RV wall motion abnormalities with reduced RV-GLS and free wall RVLS were found, indicating the presence of subclinical RV myocardial dysfunction.
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The proceedings contain 138 papers. The topics discussed include: cardiovascular profile and electrocardiographic findings of hospitalized adult patients during the surge of delta and omicron variants of COVID-19 in a COVID-19 tertiary referral center;abnormal left atrial strain is associated with eventual diagnosis of atrial fibrillation in patients with embolic stroke of undetermined source;sex differences in the evaluation and outcomes of multi-ethnic Asian patients undergoing stress echocardiography;intraventricular pressure gradient: a novel color M-mode echocardiographic-derived imaging modality to assess and predict the alterations following acute myocardial infarction;nationwide trends of gatekeeper to invasive coronary angiography in suspected coronary artery disease;change in minimum indexed left atrial volume predicts incident heart failure: the multi-ethnic study of atherosclerosis;and the diagnostic utility of cardiac imaging (echocardiogram and cardiac MRI) in COVID 19 patients and cardiac complications: retrospective cohort study in Saudi Arabia.
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Objective: Few data have been published regarding the holistic approach of post- Covid patients, examining physical health. The purpose of our study was to examine the impact of arterial hypertension in the cardiopulmonary status of post-covid patients 3 months after the first day of infection. Design and Method: All participants who recovered Covid-19 infection underwent cardiorespiratory exercise using either Bruce or modified Bruce protocol where all parameters were evaluated and transthoracic echocardiogram. The population was separated into two groups based on history of hypertension. Group I (n = 29) included hypertensive subjects and Group II (n = 75) included normotensive subjects. Results and Conclusion: A total of 104 patients were assessed 3 months after the onset of COVID-19 symptoms. We recorded a mean age of 49 ± 15 years, 50.5% of them were males, 8.7% had a history of coronary heart disease. Hypertensives had higher BMI (29.24 ± 24 vs 26.64 kg/m2 p < 0.01) and BSA (2.09 ± 0.25 vs. 1.95 ± 0.58, p = 0.001). They were hospitalized in higher percentage comparing to normotensives (72.4% vs. 41.3%, p < 0.01). Left atrial diameter (41 ± 6 vs. 35 ± 5.5 mm, p < 0.001) was significantly larger in hypertensives. Furthermore, A wave (79 ± 21 vs. 58 ± 18 cm/s p < 0.001) and ratios of E/A (1.01 ± 0.42 vs. 1.28 ± 0.44, p < 0.01) and E/E (7.3 ± 3.7 vs. 5.9 ± 4.3, p < 0.01) differed between two groups. Finally, LVEF (%) was significantly impaired in hypertensive comparing to normotesive subjects (53 ± 13% vs. 59 ± 7%). This finding was depicted in lower maximum oxygen consumption (VO2 22 ± 4.5 vs. 28 ± 8 ml/kg/min p < 0.001), metabolic equivalents (METS) at peak, 9.1 ± 3 vs. 14 ± 20 p < 0.001), maximum heart rate (maxHR 147 ± 17 vs. 165 ± 21 bpm p < 0.001) and HR1st minute recovery (123 ± 28 vs. 138 ± 21 bpm, p: 0.02) comparing to normotensive. Systolic blood pressure (SBP 180 ± 29 vs. 165 ± 25mmHg, p: 0.02) during the 1st minute of recovery was higher in hypertensives. Finally, the duration of exercise was significantly lower in patients with hypertension (7.3 ± 2.7 vs. 9 ± 4 min, p:0.02). To conclude, the current study highlighted the negative impact of hypertension in the ability to exercise. Regardless of the disease severity, post-covid patients need a comprehensive approach for rehabilitation including the modification of risk factors like hypertension and obesity.
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Objective: There is little data concerning the impact of arterial hypertension (HTN) on the cardiopulmonary status and right ventricle (RV) function of patients with SARS-Cov-2 infection. The purpose of our study was to investigate whether HTN affects the functional status of hospitalized for SARS-Cov-2 patients, using cardiopulmonary test and echocardiographic parameters, 3 months after the first day of infection. Design and Method: Subjects who were hospitalized and survived Covid-19 infection were divided into two groups according to history of HTN. All subjects underwent cardiorespiratory exercise using Bruce or modified Bruce protocol evaluating all parameters. Echocardiographic findings including right ventricle strain were analyzed using an offline program. Results and Conclusion: A total population of 52 hospitalized Sars-Cov-2 patients with a mean age of 57 ± 11.5 years were evaluated 3 months after the symptoms onset. Males amounted to 51.9 %. History of coronary artery disease was recorded in 15.4% of them. In hypertensive subjects, age (63 ± 8 vs. 52 ± 11 years, p < 0.001), BMI (29.9 ± 4.6 vs. 27.1 ± 5.8 kg/m2, p:0.03) and BSA (2.1 ± 0.25 vs. 2 ± 0.9 m2, p:0.04) were significantly higher. When analyzing cardiopulmonary test parameters, only maximum systolic blood pressure ((SBP, mmHg), 190 ± 21 vs.171 ± 26, p: 0.02) at peak and during the 1st minute of recovery (180 ± 23 vs. 157 ± 27 mmHg, p: 0.005) were higher comparing to normotensive subjects. Furthermore, diameter of left atrium ((LA, mm), 42 ± 6 vs.38 ± 6 p: 0.009), left ventricle ejection fraction ((LVEF,%), 48 ± 11 vs. 57 ± 6, p:0.004) and the absolute mean value of right ventricle strain ((RVLS, %), 9.1 ± 4 vs. 12.7 ± 5.4, p:0.04) differed significantly between two groups. Using linear regression analysis adjusted for age, gender, HTN, coronary heart disease and LVEF, HTN (p: 0.01) proved to be independent predictive factor for RVLS in hospitalized patients. To conclude our study highlighted negative impact of HTN both in right and left ventricle functionality, implying HTN as a negative independent predictive factor for right ventricle strain in patients hospitalized for SARS-Cov-2.
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Background and aims: Echocardiographic Pulmonary to Left Atrial ratio (ePLAR, tricuspid regurgitation Vmax/mitral E/e') represents an accurate and sensitive non-invasive tool to estimate trans-pulmonary pressure gradient, showing a sensitivity for pre-capillary pulmonary obstruction higher than traditional echocardiographic measures. The prognostic value of ePLAR in patients with coronavirus disease-2019 (COVID-19) remains unknown. We aimed to investigate the predictive role of ePLAR on mortality in COVID-19 patients. Method(s): One hundred consecutive patients admitted in two Italian institutions for COVID-19 undergoing early echocardiographic examination were included. ePLAR was determined from the maximum tricuspid regurgitation velocity at continuous wave Doppler (m/s) divided by the transmitral E-wave: septal mitral annular Doppler Tissue Imaging e'-wave ratio (TRVmax/E:e'). Main outcome measure was inhospital death. Result(s): Patients who died during hospitalization had a higher prevalence of tricuspid regurgitation, higher ePLAR and right-side pressures, lower Tricuspid Annular Plane Systolic Excursion (TAPSE)/Pulmonary Artery Systolic Pressure (PASP) ratio and reduced inferior vena cava collapse than survivors. Patients with ePLAR >0.28 m/s showed increased in-hospital mortality compared to those having ePLAR <=0.28 m/s (27% vs 10.8%, p=0.05, Figure). A Cox model of multivariate analysis demonstrated that an ePLAR >0.28 m/s was independently associated with increased risk of death (HR 5.07, 95% CI 1.04-24.50, p=0.043), particularly among patients with increased pulmonary arterial pressure. Conclusion(s): A high ePLAR value at baseline predicts in-hospital death in patients with COVID-19, especially in those with elevated pulmonary arterial pressure. These results support an early ePLAR assessment in patients admitted for COVID-19 to identify those at higher risk and potentially to guide strategies of diagnosis and treatment. (Figure Presented).
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Background: Clinical manifestations of children's coronavirus disease-2019 (COVID-19) were initially considered less severe compared with adult patients. However, there is now increasing evidence of a "long-tail" of COVID-19 related symptoms lasting for several months after recovery from the acute infection. Long COVID-19-related symptoms and mechanisms are poorly characterized and understood, with several phenotypes reported, often driven by long-term tissue damage (such as lung, heart and brain) and pathological inflammation due to viral persistence and/or immune deregulation. Purpose(s): The objective of this study was to evaluate atrio-ventricular mechanics, by means of two-dimensional speckle-tracking echocardiography, in previously healthy children recovered from asymptomatic or mildly symptomatic severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) infection in a long-term followup. Method(s): We analysed a cohort of 157 paediatric patients, mean age 7 +/- 4 years, who had a confirmed diagnosis of SARS-CoV-2 infection and were asymptomatic or mildly symptomatic for COVID-19. Patients underwent standard transthoracic echocardiogram and speckle tracking echocardiographic study 148 +/- 68 days after diagnosis. One hundred seven age, sex, and body surface area comparable healthy subjects were used as control group. Result(s): Left ventricular ejection fraction was within normal limits in postCOVID-19 cases and CTRL with no significant differences between the two groups (postCOVID-19: 65.6 +/- 4% vs CTRL: 65.0 +/- 5%, p = 0.182).Left ventricular (LV) global longitudinal strain (postCOVID-19: -20.5 +/- 2.9%;CTRL: -21.8 +/- 1.7%;p < 0.001) was significantly reduced in cases compared with CTRLs. An amount of 11 (7%) postCOVID-19 cases showed impaired GLS values < -17% and 95 subjects (60%) presented with a strain lower than -16% in more than 2 segments. These subjects did not show any difference regarding symptoms or serological findings. Moreover, GLS was significantly reduced in children with disease's onset during the second wave of COVID-19 pandemic, compared with those during the first wave (second wave: -20.2 +/- 2.6%;first wave: -21.2 +/- 3.4%;p = 0.048). Finally, peak left atrial systolic strain was within the normal range in the postCOVID-19 group with no significant differences compared to CTRL (postCOVID-19: 49.1 +/- 12%;CTRL: 49.5 +/- 18%). Conclusion(s): SARS-CoV-2 infection may affect left ventricular deformation in children despite an asymptomatic or only mildly symptomatic acute illness. Our data show an amount of 60% of children, recovering from asymptomatic or mildly symptomatic COVID-19, with still mild subclinical systolic cardiac impairment in the midand long-term follow-up after the infection. This subtle impairment was seen to be worse in children recovering from the second wave of COVID-19 compared to the first one. A follow-up is needed to verify the reversibility of these alterations and their impact on long-term outcomes.
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Background:Speckle tracking echocardiography represents an advanced, noninvasive imaging modality that allows a fast and accurate assessment of the global and regional function of both atrial and ventricular chambers, independently from the angle of insonation and in-plane translational motion. STE is based on the interaction between the myocardial tissue and the ultrasound beam that produces particular acoustic markers. Objective:To assess left atrial strain and strain rate in patients recovered from COVID-19.Conclusion:COVID-19 may unmask subclinical Left Atrial (LA) dysfunction or exacerbate preexisting LA dysfunction. Moreover, recent findings suggested that COVID-19 patients with severe respiratory failure had a high prevalence of increased LVEDP. However, data about the potential effect of COVID-19 on LAcd function are currently lacking.
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SESSION TITLE: Anatomical Cardiovascular Disease Case Posters SESSION TYPE: Case Report Posters PRESENTED ON: 10/19/2022 12:45 pm - 01:45 pm INTRODUCTION: Scimitar Syndrome is a rare congenital disorder characterized by partial or complete anomalous pulmonary venous drainage to the inferior vena cava, right lung hypoplasia and displacement of the cardiac structures into the right hemi-thorax (1) The name Scimitar Syndrome is derived from the resemblance of the anomalous pulmonary vein to a curved Middle Eastern sword known as a scimitar (1). Some patients experience no symptoms while others may have severe pulmonary hypertension and dyspnea (2) (3). Cases may be discovered in infancy although some patients are not diagnosed until early adulthood. Here we present a case of a woman who was discovered to have symptomatic scimitar syndrome in her teenage years and opted to forego correction. CASE PRESENTATION: Patient was a 38 year old female with past medical history of Scimitar Syndrome who presented to the pulmonary clinic after a short hospitalization with mild COVID-19. Prior to contracting COVID-19 she had experienced worsening dyspnea over one year and now becomes short of breath after walking one half block. Open surgical correction was offered at diagnosis but was not pursued due to patient preference. A CT Angiogram of the chest was performed while she was hospitalized which showed an anomalous right pulmonary vein draining to the hepatic IVC, minimal bilateral patchy opacities and displacement of the heart into the right hemi-thorax. Echocardiography showed normal right ventricular size and function and did not show evidence of pulmonary hypertension. She was referred to the adult congenital heart disease clinic and continued to have severe dyspnea and fatigue. 6 months later, repeat echocardiography and cardiac MRI demonstrated borderline dilation of the right ventricle and atrium but no echocardiographic evidence of pulmonary hypertension. The patient remains hesitant to undergo invasive procedures or interventions. She has been offered a right heart catheterization to better characterize her volume status and obtain direct measurement of her pulmonary artery pressures. DISCUSSION: Although generally discovered in infancy and childhood, Scimitar syndrome may not be discovered until adulthood. Various treatments are available for correction of scimitar syndrome including open surgical approaches with direct implantation of the scimitar vein into the left atrium, trans-catheter occlusion of aorto-pulmonary collaterals and re-routing of the anomalous vein into the left atrium via endoscopic graft placement (4) (6) (7) (8). If left uncorrected worsening left to right shunting and pulmonary hypertension may occur (5). Our patient has developed borderline right ventricular dilation and has experienced severe functional limitation. A right heart catheterization is indicated to determine her pulmonary artery pressures. This case illustrates the potential consequences of deferring early treatment for Scimitar Syndrome CONCLUSIONS:. Reference #1: Frydrychowicz A, Landgraf B, Wieben O, François CJ. Images in Cardiovascular Medicine. Scimitar syndrome: added value by isotropic flow-sensitive four-dimensional magnetic resonance imaging with PC-VIPR (phase-contrast vastly undersampled isotropic projection reconstruction). Circulation. 2010 Jun 15;121(23):e434-6. doi: 10.1161/CIRCULATIONAHA.109.931857. PMID: 20547935 Reference #2: Abdullah A. Alghamdi, Mansour Al-Mutairi, Fahad Alhabshan, Scimitar syndrome: restoration of native pulmonary venous connection, European Heart Journal Supplements, Volume 16, Issue suppl_B, November 2014, Pages B41–B43, https://doi.org/10.1093/eurheartj/suu025 Reference #3: Khan A, Ring NJ, Hughes PD. Scimitar syndrome (congenital pulmonary venolobar syndrome). Postgrad Med J. 2005 Apr;81(954):216. doi: 10.1136/pgmj.2004.027813. PMID: 15811882;PMCID: PMC1743239 DISCLOSURES: No relevant relationships by John Prudenti No relevant relationships by Anthony Smith
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Cardiac involvement is an observable issue in multisystem inflammatory syndrome in children (MIS-C) associ20 ated with COVID-19. The most common echocardiographic findings in MIS-C are abnormal coronary arteries, decreased left ventricular function, mitral regurgitation, and pericardial effusion. Abnormalities in the coronary arteries were seen in less than 20% of MIS-C patients. These abnormalities include dilatation or aneurysms in the coronary arteries;however, giant or large aneurysms are rare. On the other hand, transient coronary artery dilatation (which can occur secondary to viral myocarditis) may also mean that the coronary artery Z-scores never exceed 2.5. Reviewing large case series revealed that approximately 30 - 40% of MIS-C patients had decreased left ventricular function. In most cases, left ventricular function is mildly depressed, and severe left ventricular dysfunction was observed in only one-fifth of cases. Hypoxia, myocardial ischemia secondary to coronary involvement, stress-induced cardiomyopathy, injury caused by systemic inflammation, and viral myocarditis are the possible etiologies for the myocardial injury in MIS-C. It is now clear that myocardial strain imaging indices such as a global longitudinal strain (GLS), end-diastolic strain rate (EDSR), and peak left atrial strain (LAS) can demonstrate systolic or diastolic dysfunction in myocarditis patients with preserved left ventricular ejection fraction. Furthermore, right-sided ventricular deformation imaging abnormalities have been reported in adult patients with MIS-C. Less information is currently available on mitral regurgitation and pericardial effusion in pediatric patients with MIS-C;however, in an extensive study on 286 pediatric patients with MIS-C, 28% had pericardial effusion, and 42.7% had mitral regurgitation;both were mild in most patients.
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Background: Transoesophegeal echocardiogram (TOE) is the gold standard imaging modality to evaluate the left atrial appendage (LAA) prior to direct current cardioversion (DCCV) for atrial arrhythmia. TOE is an aerosol generating procedure, with the potential for transmission of COVID-19 infection. This study describes our experience of utilising cardiac computed tomography (CT) as an alternative imaging modality, to exclude LAA thrombus prior to DCCV in patients with atrial arrhythmias at Middlemore Hospital from 1st September 2020 until 30th September 2021 during the COVID-19 pandemic. Method: Patients with atrial arrhythmia requiring DCCV who underwent cardiac CT were identified from ANZACS-QI linked cardiac CT registry database. Patients without thrombus on cardiac CT proceeded to DCCV. Patients with slow flow or thrombus in the left atrium (LA) or LAA on CT were considered for TOE. Results: Eighty-five cardiac CT scans were performed in eighty patients (male 68.8%, mean age 59.3±14 years, body mass index 33.4±8). Sixty-seven patients (87%) had no LAA thrombus, and 65 patients proceeded safely to DCCV with no periprocedural stroke. Thirteen patients (16%) had slow flow or possible thrombus in the LA or LAA and one patient had definite thrombus. Six patients with slow flow or possible thrombus underwent TOE none had LA or LAA thrombus. Conclusion: In the majority of patients with atrial arrhythmia requiring DCCV, cardiac CT is a safe and useful alternative to TOE.
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Early diagnosis of atrial fibrillation (AF) predictors in coronavirus disease 2019 (COVID-19) and the appointment of additional therapy to prevent arrhythmias will improve the prognosis of patients. Aim. To identify predictors of AF in patients with COVID-19. Material and methods. This retrospective study included 1473 patients hospitalized with COVID-19. Depending on AF occurrence, the patients were divided into 2 groups as follows: group I included 95 patients with AF episodes during hospitalization;group II consisted of 1378 patients who did not have AF during hospitalization. All patients underwent a complete blood count and urine tests, a biochemical and coagulation blood tests, 12-lead electrocardiography, chest computed tomography (CT), and echocardiography. Results. Chest CT found that lung tissue involvement in patients of group I was significantly greater than in group II (p<0,05). The number of patients with significant lung involvement >50% (CT-3 and CT-4) was significantly higher in the AF group than in the control group. The average room air oxygen saturation upon admission to the hospital were significantly lower in patients with AF than in the comparison group (p<0,05). Multivariate analysis showed that following factors have a significant effect on AF development in COVID-19 patients: age >60 years, hypertension, coronary artery disease, heart failure, increased left atrial volume, large lung tissue involvement, and increased interleukin-6 level. Conclusion. There are two following groups of predictors initiating AF in COVID-19: generally known (older age, cardiovascular disease, increased left atrial volume) and those that determine the severe COVID-19 course (large lung damage and high interleukin-6 levels).