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Aim. To investigate the relationship between echocardiographic parameters and laboratory immune inflammation signs in patients after coronavirus disease 2019 (COVID-19) pneumonia depending on the left ventricular (LV) involvement according to speckle tracking echocardiography (STE). Material and methods. The study included 216 patients (men, 51,1%, mean age, 50,1+/-11,1 years). The examination was carried out in patients 3 months after COVID-19 pneumonia. Patients were divided in 3 groups: group I (n=41) - diffuse decrease (>=4 segments the same LV level) of longitudinal strain (LS) according to STE;group II (n=67) - patients with regional decrease (LS reduction >=3 segments corresponding to systems of the anterior, circumflex or right coronary arteries);group III - patients without visual left ventricle involvement (n=108). Results. There were no significant differences in LV ejection fraction - 68,9+/-4,1% in group I, 68,5+/-4,4% in group II and 68,6+/-4,3 in group III (p=0,934). A decrease in the global longitudinal left ventricle strain was detected significantly more often in groups I and II compared with group III (-17,8+/-2,0, -18,5+/-2,0 and -20,8+/-1,8%, respectively;p<0,001). At the same time, LS depression of LV basal level (-14,9+/-1,5, -16,8+/-1,2% and -19,1+/-1,7%;p<0,001), as well as a decrease in LS of LV inferior-posterior segments in group with diffuse involvement was detected significantly more often than in groups II and III. In addition, we revealed a significant difference in interleukin-6 concentration - 3,1 [2,5;4,0], 3,1 [2,4;3,8] and 2,5 [3,8;1,7] pg/ml, (p=0,033), C-reactive protein - 4,0 [2,2;7,9], 5,7 [3,2;7,9] and 2,4 [1,1;4,7] mg/l, (p<0,001), tumor necrosis factor-alpha - 5,9+/-1,9, 6,2+/-1,9 and 5,2+/-2,0 pg/ml, (p=0,004) and ferritin - 130,7 [56,5;220,0], 92,2 [26,0;129,4] and 51,0 [23,2;158,9] microg/l, respectively (p=0,025). Conclusion. A relationship was found between diffuse and regional left ventricular involvement according to STE and signs of immune inflammation in patients 3 months after COVID-19 pneumonia.Copyright © 2023 Vserossiiskoe Obshchestvo Kardiologov. All rights reserved.
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Objectives: At present, clinicians face plenty of patients complaining of post-COVID-19 chest pain and dyspnea. However, it remains to be seen if these symptoms indicate pathology of the cardiovascular system. We aimed to evaluate heart functions in outpatients with post-COVID-19 chest pain and dyspnea, using 2D speckle-tracking echocardiography (2D-STE). Method(s): This cross-sectional study recruited consecutive patients who presented to cardiology outpatient clinics between June 15, 2021, and July 15, 2021. A total of 78 patients had recovered from COVID-19 1-2 months before admission were included in the study. ECG and echocardiography, including 2D-STE images, were obtained for all patients. Findings were compared with sex- and an age-matched control group of 67 healthy adults. Result(s): The median age was 38 (IQR, 34-45) years, and 64.1% were female. There were no significant differences between the patients and control group regarding laboratory, ECG, and echocardiography findings. Moreover, the left ventricle global longitudinal strain measurements in both the patient and control groups were within the normal ranges and did not show a significant difference (-20.5 [-21.8- -17.9] vs. -19.8 [-21.4-18.9], p=0.894). Conclusion(s): Post-COVID-19 chest pain and dyspnea are unlikely signs of cardiovascular involvement in outpatient young adults who have not been hospitalized with COVID-19.©Copyright 2022 by The Cardiovascular Thoracic Anaesthesia and Intensive Care.
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Cardiovascular complications are frequently reported in COVID-19 patients and are associated with increased mortality during hospitalization. However, no data exists on cardiac involvement in patients recovered from COVID-19 infection. Our study suggests a need for closer follow-up among COVID-19 recovered subjects including echocardiographic assessment of left ventricular function to elucidate long-term cardiovascular outcomes by early detection of left ventricular dysfunction.Copyright © 2022 Wolters Kluwer Medknow Publications. All rights reserved.
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Background: Left ventricular global longitudinal strain (LV-GLS) has been recently demonstrated to be predictive of poor outcomes in various cardiovascular settings. Therefore, this study sought to investigate the prognostic implications of LV-GLS in patients with coronavirus disease 2019 (COVID-19). Method(s): This prospective study enrolled 180 consecutive hospitalized patients with COVID-19 admitted to a tertiary care hospital. LV-GLS from the apical four-chamber view was obtained using two-dimensional speckle-tracking echocardiography (2D-STE). Patients with diabetes, hypertension, heart failure, atrial fibrillation, and/or ischemic heart disease were excluded from the study. A correlation between LV-GLS and interleukin-6 (IL-6) levels, C-reactive protein (CRP) levels, in-hospital mortality, intensive care unit (ICU), and hospital stay were sought. Result(s): The mean age of included patients was 58 +/- 16 years. The mean left ventricular ejection fraction (LVEF) was 70.2 +/-6.5, the mean GLS was -21.9+/-4.3. Mean IL-6 and CRP were 9.9 +/- 7.8 pg/ml and 25.8 +/- 25.8 mg/dl respectively. Mean ICU and hospital stay were 7.5 +/- 3.14 and 10.7 +/- 4.03 days respectively. The in-hospital mortality rate was 2.22% (4 patients). Pearson correlation showed a negative correlation between LV-GLS and IL-6, CRP, ICU, and hospital stay (correlation coefficient r= -0.273, -0.301, -0.275, and -0.259 respectively). Conclusion(s): In an observational cohort study, LV-GLS had a negative correlation with laboratory and clinical outcomes in hospitalized COVID-19 patients. So far, long-term cardiovascular complications of COVID-19 are still unknown. Several reports indicate that GLS can be used as a validated method for early prediction of poor outcomes in COVID-19 patients even after the resolution of the original infection. [Formula presented]Copyright © 2023
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Background: The coronavirus disease 2019 (COVID-19) has had a great impact on patients' physical problems as well as psychological status. However, there is limited data about the impact of psychological problems on cardiac function during the COVID-19 pandemic. In this study, we aimed to investigate the relationship between mental health disorders and subclinical early myocardial systolic dysfunction by left ventricular global longitudinal strain (LVGLS) imaging in patients recovered from COVID-19.Methods: Of the 108 participants, 71 patients had recovered from COVID-19;the members of the study group were prospectively recruited to the study after COVID-19 recovery. Comparisons were made with a risk-factor matched control group (n=37). The psychological status of the subjects, namely, Depression, Anxiety and Stress Scale-21 (DASS-21), and the Impact of Events Scale (IES-R) at follow-up visits, were assessed via questionnaire forms. The relationship between the psychological parameters and LVGLS values was subsequently evaluated.Results: Overall, 45.0% of patients with COVID-19 had some degree of anxiety after recovery. A significant negative correlation was found between LVGLS and DASS-21 total score, DASS-21 anxiety subscale score, IES-R total score, and IES-R intrusion subscale score (r=-0.251, p=0.02;r=-0.285, p=0.008;r=-0.291, p=0.007;and r=-0.367, p=0.001, respectively). Furthermore, the DASS-21 total score was identified as an independent predictor of LVGLS (b=-0.186, p=0.03).Conclusions: Patients who suffered from the COVID-19 disease may have experienced psychological distress symptoms due to COVID-19, which may be associated with silent impairment in myocardial systolic functions measured by global longitudinal strain analysis.
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Background and Aim: The cardiac sequelae of coronavirus disease 2019 (COVID-19), a worldwide global pandemic, are still uncertain, particularly in the asymptomatic, low cardiac risk outpatient population. This study aims to evaluate the asymptomatic, low cardiac risk out-patient population who recently recovered from COVID-19, using 2-D left ventricular-global longitudinal strain (LV-GLS) proven to capable of detecting subclinical myocardial injury. Method(s): Out of 305 COVID-19 positive patients, 70 asymptomatic out-patients were determined as the study group and 70 age and sex-matched healthy adults as the control group. The echocardiographic examination did perform with the Philips IE33 system, and LV-GLS was measured using commercially available software QLAB 9 (cardiac motion quantification;Philips Medical Systems). The absolute value of LV-GLS <= 18 did deem to be impaired LV-GLS. Result(s): The absolute values of LV-GLS were statistically significantly lower in the COVID-19 group than in healthy controls (19.17+/-2.65 vs. 20.07+/-2.19, p=0.03). The correlation between having recovered from COVID-19 and impaired LV-GLS (<=18) did detect with the Pearson correlation test (p=0.02). Having recovered from COVID-19 was found as a predictor for detecting impaired LV-GLS (<=18) in the multivariable logistic regression analysis (odds ratio, 0.133 (0.038-0.461);95% CI, p=0.001). Conclusion(s): This study suggests that COVID-19 can cause subclinical LV dysfunction detected by LV-GLS during early recovery even in a population of patients at low cardiac risk, asymptomatic, and recovered with home quarantine. The study findings indicate the long-term cardiovascular follow-up of these patients may be more important than thought.
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Background: The coronavirus disease 2019 (COVID-19) has had a great impact on patients' physical problems as well as psychological status. However, there is limited data about the impact of psychological problems on cardiac function during the COVID-19 pandemic. In this study, we aimed to investigate the relationship between mental health disorders and subclinical early myocardial systolic dysfunction by left ventricular global longitudinal strain (LVGLS) imaging in patients recovered from COVID-19. Method(s): Of the 108 participants, 71 patients had recovered from COVID-19;the members of the study group were prospectively recruited to the study after COVID-19 recovery. Comparisons were made with a risk-factor matched control group (n=37). The psychological status of the subjects, namely, Depression, Anxiety and Stress Scale-21 (DASS-21), and the Impact of Events Scale (IES-R) at follow-up visits, were assessed via questionnaire forms. The relationship between the psychological parameters and LVGLS values was subsequently evaluated. Result(s): Overall, 45.0% of patients with COVID-19 had some degree of anxiety after recovery. A significant negative correlation was found between LVGLS and DASS-21 total score, DASS-21 anxiety subscale score, IES-R total score, and IES-R intrusion subscale score (r= -0.251, p=0.02;r= -0.285, p=0.008;r= -0.291, p=0.007;and r= -0.367, p=0.001, respectively). Furthermore, the DASS-21 total score was identified as an independent predictor of LVGLS (beta= -0.186, p=0.03). Conclusion(s): Patients who suffered from the COVID-19 disease may have experienced psychological distress symptoms due to COVID-19, which may be associated with silent impairment in myocardial systolic functions measured by global longitudinal strain analysis. Copyright © 2022 Southern Society for Clinical Investigation
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Background and Aim: Growing evidence has documented a severe systemic hyperinflammation syndrome affecting children previ-ously exposed to SARS-CoV-2, known as Multisystem Inflammatory Syndrome in Children (MIS-C). Cardiovascular manifestations in MIS-C are frequent (34%-82%). The aim of our study was to describe the early and late cardiac abnormalities in patients with MIS-C, assessed by standard echocardiography, speckle tracking echocardiography (STE), and cardiac MRI (CMR). Method(s): 32 consecutive patients (21M, 11F), mean age 8.25 +/- 4years (range 1.3-17.7), with confirmed MIS-C diagnosis were enrolled in this study. Clinical, laboratory and microbiological data were collected. At disease onset, all children underwent standard transthoracic echocardiography, STE with analysis of left ventricle global longitudinal strain (GLS) and 23 (75%) of them performed CMR. Patients underwent complete cardiological evaluation, including echocardiography and STE at two months (T1) and six months (T2) after diagnosis. CMR was repeated at six months after diagnosis. Result(s): Cardiovascular symptoms were present in 45.8% of cases. Thirteen children (40.6%) shared Kawasaki Disease-like symp-toms, and 5 (15.6%) needed ICU admission. Early survival was 100%. All patients showed an hyperinflammatory state. Tn-I was elevated in 20 (62.5%) and BNP in 28 (87.5%) patients. Mean LVEF at baseline was 58.8 +/- 10% with 10 patients (31%) below 55%. STE showed reduced mean LV GLS (-17.4 +/- 4%). On CMR, LGE with nonischemic pattern was evident in 8/23 patients (35%). Follow-up data showed rapid improvement of LVEF at T1 (62.5 +/- 7.5 vs. 58.8 +/- 10.6%, p value 0.044) with only three patients (10%) below <= 55% at T1 and one (4%) at T2. LV GLS remained impaired at T1 (-17.2 +/- 2.7 vs.-17.4 +/- 4, p value 0.71), and significantly improved at T2 (-19 +/- 2.6% vs.-17.4 +/- 4%, p value 0.009). LV GLS was impaired (gt;-18%) in 53% of patients at baseline and T1, while only 13% showed persistent LV GLS reduc-tion at T2. Follow-up CMR showed LGE persistence in 33.4% of cases. Conclusion(s): Even though, early cardiac involvement significantly improves during follow-up, subclinical myocardial damage seems to be still detectable 6 months follow up in one third of MIS-C patients.
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Background: Multiple studies have investigated cardiovascular effects associated with COVID-19 in collegiate and professional athletes. The incidence of cardiovascular abnormalities in adolescents seeking a return to sports following COVID-19 is not well known. We performed a comprehensive analysis of clinical and subclinical function in a cohort of post-COVID individuals seeking clearance for sports participation. We hypothesized that adolescent athletes after COVID-19 would have subclinical functional abnormalities. Methods: We reviewed outpatient transthoracic echocardiograms obtained between 11/01/2020 and 12/31/2020 for clearance for return to activity/sports of patients aged 12-18 with a history of mild or moderate COVID infection (COVID group). Adolescents from the pre-COVID era with complaints of chest pain, shortness of breath, palpitations, or syncope served as controls (pre-COVID group). Conventional echocardiographic metrics were ed from clinical reports;two investigators retrospectively used speckle tracking echocardiography to obtain left ventricular global longitudinal strain (LV GLS), LV global circumferential strain (GCS), right ventricular global longitudinal strain (RV GLS), and RV free wall strain (FWS). Upper limit of normal for GLS was -18%. Wilcoxon rank-sum test was used to evaluate differences between the groups, and Spearman's rho was used to evaluate correlations. Multivariable linear regression following multiple imputation of minimal missing data was performed to evaluate associations. Results: Thirty-eight COVID and 36 pre-COVID subjects were enrolled. There was no significant difference in the groups' age and gender distributions (Table 1). Median time since COVID diagnosis in that cohort was 33.5 days (IQR 22 - 64). Symptoms were reported in 68.4% of that group with a borderline or abnormal ECG in 23.7%;1 patient had depressed left ventricular ejection fraction (LVEF) and associated abnormal strain, and 8 had abnormal LV GLS despite normal LVEF based on our cut-off of -18%. The COVID group had decreased LV GLS, LV GCS, RV FWS, and RV GLS in comparison to the pre-COVID group (Table 1, Figure 1). Within the COVID cohort, controlling for age and gender, neither abnormal ECG nor presence of symptoms was associated with abnormal LV GLS or GCS. Time since COVID diagnosis was not associated with conventional echocardiographic or strain metrics. The COVID group continued to have worse LV GCS and RV GLS after controlling for age and gender;LV GLS and RV FWS no longer correlated with COVID status in multivariable analysis. Conclusion: In adolescents with prior mild or moderate COVID illness, ventricular function by conventional metrics is not categorically different from those without a COVID history. However, differences in myocardial strain suggest subclinical dysfunction. Future studies should elucidate whether these myocardial strain abnormalities persist and whether they are predictive of adverse outcomes in these patients.
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Background and Aim: High percentage of patients who had COVID- 19 are still symptomatic after several months post infection, but the long-term outcomes are not yet well known. The long-term outcomes and, in particular, the cardiac sequelae of COVID-19 are not completely known. Aim of this study was to provide new insights into cardiovascular dysfunction in “long Covid” patients. Materials and Methods: In this multicenter prospective study, subjects were collected from “long Covid” ambulatories from june 2021 to august 2021. Evaluation comprehended a blood sample, ECG, cardiac US, 24-h BP monitoring at baseline and after three months. Primary endpoint was to estimate the prevalence of cardiac involvement in these subjects and define their clinical prognosis. Results: 215 “Long Covid” patients were enrolled (120 F, 95 M, mean age 58,9±6,7). Control group was composed of patients without diagnosis of LONG COVID, with no significant differences of age, sex, comorbidities and drugs (130 subjects, 77 F, 53 M, mean age 54,7±7,8). Cardiac involvement was found in 12,3% in “long Covid” group at the baseline, 9,9% at 3rd month. Significant differences were showed in CRP and ADMA values, left ventricular global longitudinal strain, BP and HR variability. A “non-dipping” blood pressure pattern was found in almost 25,7% in the “long Covid” group at the baseline and in 19,8% at the 3rd month. Conclusions: “Long covid” subjects seems to show a cardiovascular involvement more than other COVID-19 patients. Further studies will be needed to define the duration of these signs and early preventive interventions.
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Background: The multisystem involvement of covid-19 lingers in post-covid phase. The significance of baseline resting pulse rate was looked for in long-covid relating to symptoms in acute phase, 2-chair test response, and echocardiography. Methods: Serial long-covid patients attending out-patient department were included. They were evaluated on demographic (age, height, weight, and BMI), characteristics, symptom score in acute phase (symptom severity in 0 to 5 scale X duration of symptoms), variables (pulse-rate and SpO2 changes) related to 2 chair test and resting Doppler echocardiography (LV ejection fraction, TSAPSE, left and right ventricular free wall GLS, and LV filling pressure. Two groups with pulse rate below or above 90/minute were compared. Results: The mean duration of acute illness for both the group is computed to be (118.44±95.95 vs. 152.77±102.25, p- value= 0.42) respectively. The baseline pulse rate were significantly different between those above (n=12) and below 90 (n=23) per minute (101±5.83 vs.72.85±8.14;p<0.0001);so is the post-exercise maximum pulse rate (p<0.004). Subjects with lower pulse rate had better height (p=0.05), weight (p=0.06), and higher anosmia (p=0.005) but lower total symptoms score (26.4±51.02 vs.29.66±66.12;p=0.008). The spirometric parameters (FVC, FEV1, FWV1/FVC) were better (although not significant) in those with lower pulse rate. The echocardiographic parameters as LVEF, TAPSE, LVFP were similar;the free wall GLS of both RV and LV were reduced in both the groups but that of RV (and LV were affected more in lower and higher pulse rate group respectively. Conclusion: Baseline pulse-rate in post covid subjects is likely related to neuro-inflammatory symptoms (anosmia) and poor LVGLS suggesting LV myocardial dysfunction.
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Introduction: Evidence suggests that, compared with adult patients, clinical manifestations of children's COVID-19 may be less severe. However, multiple reports have raised concern about the so called pediatric inflammatory multisystem syndrome temporally associated with SARS-CoV-2 (PIMS-TS) which resembles other inflammatory conditions (i.e. Kawasaki disease, toxic shock). Patients affected by PIMS-TS showed cardiac involvement with myocardial injury, reduced left ventricle systolic function and coronary artery abnormalities, and in some cases, need for inotropes/ vasopressors and extracorporeal life support (ECLS). Little is known regarding cardiac involvement in pediatric patients with SARS-CoV-2 infection and none or only mild symptoms of disease. Methods: We analyzed 52 pediatric patients (29males, 56%) with diagnosis of SARS-CoV-2 infection based on either PCR analysis of nasopharingeal swab (NPS), or serological finding of IgG on blood sample and asymptomatic (23%) or only mildly symptomatic (77%) for COVID-19. Patients underwent transthoracic echocardiogram (TTE) after a median time of 3.6 months from diagnosis and negative NPS for SARS-CoV-2. Offline analysis with GE EchoPAC software to measure global longitudinal strain (GLS) of the LV using 2D speckle tracking imaging. Therefore, we compared the results with an age-matched group of 32 controls (18males, 56%). Results: Cases and controls were similar regarding age and gender. LV biplane EF was significantly lower in the cases group, although still in the normal range (62.4±4.1% vs. 65.2±5.5%, p=0.012). TAPSE and LV-GLS were comparable between the two groups. GLS analysis showed significant strain reduction of the LV midwall segments and of the basal anterior, posterior and septal inferior segments among cases compared to controls. On the other hand, apical segments showed higher deformation in cases compared to controls. Furthermore, in the case group there were 14 subjects (27%) with a strain below 16% (mean value minus 2.5 SD) in at least 2 segments. Conclusions: SARS-CoV-2 infection may affect LV deformation in asymptomatic or only mildly symptomatic children, showing a peculiar pattern with lower longitudinal strain in all mid-wall segments of LV compared to control subjects. The clinical significance of this findings is unclear and follow-up is needed to verify the reversibility of this alterations.
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Coronavirus disease 2019 (COVID-19), caused by the severe acute respiratory syndrome coronavirus 2, is an ongoing pandemic that has affected millions globally. Many infected patients have been noted to have cardiovascular damage. Prior to the development of clinical symptoms, the use of transthoracic echocardiography, specifically with measurements of left ventricular global longitudinal strain (LVGLS), may provide an additional prognostic marker for patients infected with COVID-19. We sought to determine whether patients with COVID-19 and reduced LVGLS have an increased risk for mortality. The mean LVGLS was determined to be significantly lower in the non-survivors compared to the survivors (-11.6 ± 1.8 vs -15.4 ± 0.74, p<0.05). It should be noted, however, that even those that survived were found to have reduced LVGLS (<-18.5%). A multivariate logistic regression analysis was also performed that demonstrated a relationship between reduced LVGLS and an increased risk for mortality. Overall, our data indicate that COVID-19 patients may have subclinical left ventricular dysfunction, and that critically ill patients may have a greater decline in cardiac dysfunction.
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In hospitalized COVID-19 patients, myocardial injury and echocardiographic abnormalities have been described. The present study investigates cardiac function in COVID-19 patients 6 weeks post-discharge and evaluates its relation to New York Heart Association (NYHA) class. Furthermore cardiac function post-discharge between the first and second wave COVID-19 patients was compared. We evaluated 146 patients at the outpatient clinic of the Leiden University Medical Centre. NYHA class of II or higher was reported by 53% of patients. Transthoracic echocardiography was used to assess cardiac function. Overall, in 27% of patients reduced left ventricular (LV) ejection fraction was observed and in 29% of patients LV global longitudinal strain was impaired (> − 16%). However no differences were observed in these parameters reflecting LV function between the first and second wave patients. Right ventricular (RV) dysfunction as assessed by tricuspid annular systolic planar excursion (< 17 mm) was present in 14% of patients, this was also not different between the first and second wave patients (15% vs. 12%;p = 0.63);similar results were found for RV fraction area change and RV strain. Reduced LV and RV function were not associated with NYHA class. In COVID-19 patients at 6 weeks post-discharge, mild abnormalities in cardiac function were found. However these were not related to NYHA class and there was no difference in cardiac function between the first and second wave patients. Long term symptoms post-COVID might therefore not be explained by mildly abnormal cardiac function.
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Aims: SARS-CoV-2 infection may lead to endothelial and vascular dysfunction. We investigated alterations of arterial stiffness, endothelial coronary and myocardial function markers four months after COVID-19 infection. Methods: In a case-control prospective study, we included 100 patients four months after COVID-19 infection, 50 age- and sex-matched healthy individuals. We measured a) pulse wave velocity (PWV), b) flow-mediated dilation (FMD) of brachial artery, c) coronary Flow Reserve (CFR) by Doppler echocardiography d) left ventricular (LV) global longitudinal strain (GLS), e) left ventricular myocardial work index, constructive work, wasted work and work efficiency and e) von-Willenbrand factor and thrombomodulin as endothelial biomarkers. Results: COVID-19 patients had lower CFR and FMD values than controls (2.39 ± 0.39 vs 3.31 ± 0.59, p = 0.0122, 5.12 ± 2.95% vs 8.12 ± 2.23%, p = 0.006 respectively). Compared to controls, COVID-19 patients had higher PWV (PWVc-f 12.32 ± 2.44 vs 10.11 ± 1.85 m/sec, p = 0.033) and impaired LV GLS (-19.11 ± 2.14% vs -20.41 ± 1.61%, p = 0.001). Compared to controls, COVID-19 patients had higher myocardial work index, and wasted work (2067.7 ± 325.9 mmHg% vs 1929.4 ± 312.7 mmHg%, p = 0.026, 104.6 ± 58.9 mmHg% vs 75.1 ± 52.6 mmHg%, p = 0.008, respectively), while myocardial efficiency was lower (94.8 ± 2.5% vs 96.06 ± 2.3%, p = 0.008). and thrombomodulin were higher in COVID-19 patients than controls (3716.63 ± 188.36 vs 2590.02 ± 156.51pg/ml, p < 0.001). MDA was higher in COVID-19 patients than controls (10.55 ± 2.45 vs 1.01 ± 0.50 nmole/L, p = 0.001). Residual cardiovascular symptoms at 4 months were associated with oxidative stress markers. Myocardial work efficiency was related with PWV (F=-0.309, p = 0.016) and vWillenbrand (F=-0.541, p = 0.037). Myocardial wasted work was related with PWV (F = 0.255, p = 0.047) and vWillenbrand (F = 0.610, p = 0.016). Conclusions: SARS-CoV-2 may cause vascular dysfunction, followed by a waste of cardiac work, in order to compensate for increased arterial stiffness 4 months after infection.
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Background: During the first months of coronavirus disease 2019 (COVID 19) pandemic there were several reports of myocardial involvement in recovered patients despite of symptoms presented during acute phase of the infection. That information led to a rising number of recomendations of screening for myocardial damage with different methods like electrocardiogram, echocardiography, cardiac magnetic resonance and biomarkers in the pursuit of a cardiac event free return to normal activities. Because of this and knowing the capability of strain imaging to detect subclinical myocardial damage we decided to evaluate values of left ventricular global longitudinal strain (GLS) and right ventricular free wall strain (RVFWS) in patients that were derived for echocardiographic evaluation after COVID 19 infection and their evolution. Methods: We enrolled prospectively patients derived to our laboratory for evaluation of Doppler echocardiography after confirmed COVID 19 infection if they were in the month after clinical discharge and did not have previous known structural cardiac alterations. We obtained demographic, symptoms and echocardiographic data and calculated GLS and RVFWS. Six months after the index examination we did phone calls to asess symptoms and events. Data is presented with mean and standard deviation and percentages. Results: of 68 patients included 38 (55,88%) were male, mean age was 42 years (+- 12,5) and half of them were sedentary. 52 had mild symptoms during infection, 15 moderate and 1 severe that required mechanical ventilation. At the time of examination 58 were asymptomatic (85,29%) and the other complaint of dyspnea (3), weakness (8) and palpitations (6). Regarding echocardiographic data, mean eyection fraction estimated by Simpson?s biplane method was 65,6% (+- 4,33) and left atrial indexed volume 25 ml/m2 (+- 5,98). 44 patients had normal left ventricular diastolic function, 21 grade 1 dysfunction and 2 had grade 2, with mean E/e? relation 8,52 (+-2,03). Mean pulmonary artery systolic pressure estimated was 27,4 mmHg (+- 4,1) and tricuspid anular plane systolic excursion was 23,81 mm (+-3,12). Mean GLS was - 21,52% (+- 1,91) and RVFWS was - 29,15% (+- 5,4), in 2 patients we could not measure RVFWS due to bad quality of images. Only 2 patients had GLS above - 18%, thta were the patient with severe symptoms and 1 with moderate symptoms;and 10 had RVFWS above - 23%, all of them with moderate symptoms. We could contact 60 patients (88,23%) after 6 months and none of them had cardiac events or persistence of symptoms. Conclusions: Calculation of GLS and RVFWS in this patients was feasible. We observed abnormalities in patients with severe and moderate symptoms at the time of infection, more frequently in RVFWS, but without relation to cardiac events or symptoms on follow up.
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Introduction: Myocardial injury during acute COVID-19 infection is well characterised however, its persistence during recovery is unclear. Purpose: We assessed left ventricle (LV) global longitudinal strain (GLS) and right ventricular (RV) free wall longitudinal strain and RV global longitudinal strain (RV-GLS) using speckle tracking echocardiography (STE) in COVID-19 recovered patients (30-45 days post recovery) and studied its correlation with various parameters. Methods: of the 245 subjects screened, a total of 53 subjects recovered from COVID-19 infection and normal LV ejection fraction were enrolled. Routine blood investigations, inflammatory markers (on admission) and comprehensive echocardiography including STE were done for all. Results: All the 53 subjects were symptomatic during COVID-19 illness and were categorized as mild: 27 (50.9%), moderate: 20 (37.7%) and severe: 6 (11.4%) COVID-19 illness. Reduced LV GLS was reported in 22 (41.5%), reduced RV-GLS in 23 (43.4%) and reduced RVFWS in 22 (41.5%) patients respectively. LVGLS was significantly lower in patients recovered from severe illness (mild: -20.3 ± 1.7%;moderate: -15.3 ± 3.4%;severe: -10.7 ± 5.1%;P < 0.0001). Similarly, RVGLS (mild: -21.8 ± 2.8%;moderate: -16.8 ± 4.8%;severe: -9.7 ± 4.6%;P < 0.0001) and RVFWS (mild: -23.0 ± 4.1%;moderate: -18.1 ± 5.5%;severe: -9.3 ± 4.4%;P < 0.0001) were significantly lower in subjects with severe COVID-19. Subjects with reduced LVGLS as well as RVGLS and RVFWS had significantly higher interleukin-6, C-reactive protein, lactate dehydrogenase and serum ferritin levels during index admission. Conclusions: Subclinical LV and RV dysfunction was seen in majority of COVID-19 recovered patients. Patients with severe disease during index admission had far lower LV and RVGLS as compared to mild and moderate cases. Our study highlights the need for close follow-up of COVID-19 recovered subjects in order to determine the long-term cardiovascular outcomes.
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Background: SARS-CoV-2 infection is associated with multiple cardiac manifestations (1,2). Global longitudinal strain (GLS) by speckle tracking echocardiography (STE) is a novel transthoracic echocardiography (TTE) measure of myocardial deformation, which could early recognize subclinical cardiac injury in COVID-19 patients (3,4). Purpose: We aimed to explore GLS profiles in post-hospitalized COVID-19 patients to identify features of eventual subclinical cardiac injury and to investigate the possible correlation with the severity of infection. Methods: We enrolled 33 patients (mean age 59.2 ± 13, 64% men) with positive SARS-CoV-2 RT-PCR, hospitalized for moderate COVID-19 disease, with no admission to intensive care unit. Patients were submitted to TTE 1-2 months after discharge. Images were anonymised and analysed offline by two accredited cardiologists. Clinical parameters and laboratory findings from hospitalization were also collected. Acute myocardial infarction and pulmonary embolism were exclusion criteria. Results: Mean duration of hospitalization was 12.9 ± 8.0 days. Study population had normal systolic function with a mean LV ejection fraction 58.6% (±3.6) while the majority of patients had relative low values of LV global longitudinal strain, mean 15.2% (±2.3). Arterial hypertension was present in 51.5% of patients and a history of previous myocardial infarction was referred in 6.1% of the population. Only 24.2% of patients had elevated troponin levels during the previous in-hospital period (mean maximal value of hs-troponin was 18.1 ±16.6 pg/mL) whereas 81.8% had abnormal D-Dimers values (mean 2424 μg /L, range ±2825) and 93.1% had high hs-CRP values (138.2 ±92.0 mg/L) . Duration of hospitalization had strong significant correlation with D-Dimers (rho: 0.708, p: <0.001) and hs CRP (rho:0383, p:0.028) and marginal association with troponin ( rho: 0.335, p:0.056). Moreover, global longitudinal strain showed significant association with duration of hospitalization (rho:-0.545, p: 0.007). Traditional systolic indices as LVEF and the various diastolic parameters showed no significant association with severity of disease reflected by the duration of hospitalization and the other clinical and laboratory biomarkers. Conclusion: Cardiac manifestations of SARS-CoV-2 infections could be present in mild to moderate disease and seems to associate with the severity of infection. The novel echocardiographic parameters such as GLS could add valuable information and identify possible subclinical cardiac injury often unrecognized by traditional TTE examination.
ABSTRACT
Background: Myocardial strain assessed with speckle tracking echocardiography is a sensitive marker of cardiac dysfunction, with longterm prognostic value in many cardiac conditions. Both left ventricular global longitudinal strain (LV-GLS) and right ventricular longitudinal strain (RV-LS) were affected by severe SARS-CoV 2 infection but little is known about cardiac involvement in patients with asymptomatic/ mild disease that did not require hospitalization. Aim: To assess if subclinical myocardial dysfunction could be identified using LV-GLS and RV-LS in patients with previous asymptomatic/ mild SARS-CoV 2 infection. Methods: 40 young adults patients (70% males, mean age 24.4 ± 8.4 years), who had a confirmed diagnosis of SARS-CoV-2 infection and were asymptomatic or only mildly symptomatic, without previous known comorbidities/cardiovascular risk factors, were retrospectively included. Patients underwent standard transthoracic echocardiogram and speckle tracking echocardiographic study at least 3 months after diagnosis. A total of 44 age, sex, and body surface area comparable healthy subjects were used as control group. Results: LV-GLS was within normal limits but significantly lower in the cases group compared to controls (-22.7 ± 1.6% vs. -25.7 ± 2.3%;p < 0.001). Left ventricular ejection fraction (63.3 ± 4.1% vs 63.9 ± 4.6%;p = 0.5), tricuspid annular plane systolic excursion (24.3 ± 3.7 vs. 23.7 ± 3.3;p = 0.5) and RV-LS (-23.2 ± 3 vs. -23.6 ± 2.7;p = 0.6) were comparable between the two groups. Moreover, in the infection group, there were 25 subjects (30.1% vs 9.6% in the control group, p < 0.001) with a regional peak systolic strain of the left ventricle below -16% in at least two segments. At multivariable logistic regression corrected for age, gender and body surface area, previous SARS-CoV-2 infection was an independent predictor of reduced LV-GLS values (p < 0.001). Conclusion: SARS-CoV-2 infection may affect left ventricular deformation in 30% of young adults patients despite an asymptomatic or only mildly symptomatic acute illness. Speckle tracking echocardiography could help in early identification of patients with subclinical cardiac involvement. Since long-term complications of COVID-19 are not yet known, myocardial deformation imaging could be important for risk stratification, treatment and planning of long-term follow-up.
ABSTRACT
Myocardial dysfunction is common and associated with worse outcomes in patients with ARDS, pulmonary embolism or severe sepsis due to pulmonary hypoxic vasoconstriction. Thrombotic events, myocarditis and endothelial dysfunction may contribute to these effects in COVID- 19 infection. The evaluation of myocardial function can provide prognostic information regarding the severity of a current COVID-19 infection, but scarce data available on the role of Deformation Indices obtained by Speckle Tracking Analysis to describe unique features of myocardial dysfunction in COVID-19 pneumonitis. AIMS: to evaluate the value of ventricular and atrial Deformation Imaging in patients with COVID- 19 infection and hypoxia who had preserved systolic function in comparison with age-, gender-, BSA, hypoxia-matched control subjects with respiratory disease on oxygen therapy, thus excluding the effects of pulmonary vasoconstriction. We also assessed the impact of biochemical and inflammatory markers on the Echo-Indices. METHODS: 21 patients with PCR-confirmed COVID-pneumonitis (15 males, age:60.1 ± 16.1yrs, range:43-89) and 31 control, PCR-negative subjects (age:62.8 ± 15.5yrs, range:22-92) on oxygen with matched biometric data were compared. 2 examiners, blinded to the clinical data performed off-line standard Echocardiographic assessment and Deformation Imaging by 2D-Speckle Tracking Analysis with the TomTec Arena software package (Unterschleissheim, Germany) in both ventricles and atria. Plasma chemistry data were compared between the groups. RESULTS: No differences found in the biometric data and the cardiac chamber sizes between the groups. The global systolic strain indices were reduced in the COVID-group in the LV, but not the EF (LV-GLS -13.6 ± 2.9 vs -16 ± 1.1%, LV-GCS -24.8 ± 2.4 vs -28.9 ± 2.8%, p = 0.001, LVEF 61 ± 3.7 vs 60.7 ± 4.9%, p = NS), and these were reduced in the RV and RA, but not the TAPSE and TDI-S' when compared to the controls (RV-FWS -12.3 ± 2.9 vs -16.2 ± 1.5%, RV-GLS -14.6 ± 3.4 vs -17.1 ± 1.7%, RASr 18.5 ± 6 vs 22.3 ± 4.8% p = 0.005. Interestingly, the dispersion of contraction was increased in the COVID-patients in both the LV (LV-SD 416.2 ± 81.8 vs 309.8 ± 69.8ms, p < 0.001) and the RV and the RA (RV-SD 414.9 ± 117 vs 303.8 ± 61ms, RA-SD 33.5 ± 6.7 vs 26.1 ± 4.7ms, p < 0.001). The right heart indices correlated well with the biochemical data (RV-FWS and RV-SD with Ferritin r = 0.54 and -0.46, p = 0.003, RASr with GLS r = 0.64, p = 0.002, RA-SD with Troponin, p = 0.01 and with the RV-coupling Index r = 0.72, p = 0.02). CONCLUSIONS: Myocardial dysfunction is common among severely ill and hypoxic COVID-19 patients. The conventional Echo-parameters of systolic function or pulmonary pressures do not appear being specific but the Deformation Indices can provide tools to detect unique changes of the myocardial function and dys-synchrony imposed by the COVID-19 infection, independently from the impact of hypoxia or raised pulmonary pressures, hence they can predict outcome more accurately.