Aim To study changes in clinical and echocardiographic parameters in patients after documented COVID-19 pneumonia at 3 months and one year following discharge from the hospital. Material and methods The study included 116 patients who have had documented COVID-19 pneumonia. Patients underwent a comprehensive clinical evaluation at 3 months ± 2 weeks (visit 1) and at one year ± 3 weeks after discharge from the hospital (visit 2). Mean age of the patients was 49.0±14.4 years (from 19 to 84 years); 49.6 % were women. Parameters of global and segmentary longitudinal left ventricular (LV) myocardial strain were studied with the optimal quality of visualization during visit 1 in 99 patients and during visit 2 in 80 patients.Results During the follow-up period, the incidence rate of cardiovascular diseases (CVD) increased primarily due to development of arterial hypertension (AH) (58.6 vs. 64.7 %, р=0.039) and chronic heart failure (CHF) (35.3% vs. 40.5 %, р=0.031). Echocardiography (EchoCG) showed decreases in values of end-diastolic dimension and volume, LV end-systolic and stroke volumes (25.1±2.6 vs. 24.5±2.2 mm /m2, p<0.001; 49.3±11.3 vs. 46.9±9.9 ml /m2, p=0.008; 16.0±5.6 vs. 14.4±4.1 ml /m2, p=0.001; 36.7±12.8 vs. 30.8±8.1 ml /m2, p<0.001, respectively). LV external short-axis area (37.1 [36.6–42.0] vs. 38.7 [35.2–43.1] cm2, р=0.001) and LV myocardial mass index calculated with the area-length formula (70.0 [60.8–84.0] vs. 75.4 [68.2–84.9] g /m², р=0.024) increased. LV early diastolic filling velocity (76.7±17.9 vs. 72.3±16.0 cm /sec, р=0.001) and lateral and septal early diastolic mitral annular velocities decreased (12,10±3,9 vs. 11.5±4.1 cm /sec, р=0.004 and 9.9±3.3 vs. 8.6±3.0 cm /sec, р<0.001, respectively). The following parameters of LV global longitudinal (–20.3±2.2 vs. –19.4±2.7 %, р=0.001) and segmental strain were impaired: apical segments (anterior, from –22.3±5.0 to –20.8±5.2 %, р=0.006; inferior, from –24.6±4.9 to –22.7±4.6, р=0.003; lateral, from –22.7±4.5 to –20.4±4.8 %, р<0.001; septal, from –25.3±4.2 to –23.1±4.4 %, р<0.001; apical, from –23.7±4.1 to –21.8±4.1 %, р<0.001), mid-cavity (anteroseptal, from –21.1±3.3 to –20.4±4.1 %, р=0.039; inferior, from –21.0±2.7 to –20.0±2.9 %, р=0.039; lateral, from –18.4±3.7 to –17.6±4.4 %, р=0.021). RV basal and mid-cavity sphericity indexes increased (0.44±0.07 vs. 0.49±0.07 and 0.37±0.07 vs. 0.41±0.07, respectively, р<0.001 for both). A tendency for increased calculated pulmonary arterial systolic pressure (22.5±7.1 and 23.3±6.3 mm Hg, р=0.076) was observed. Right ventricular outflow tract velocity integral decreased (18.1±4.0 vs. 16.4±3.7 cm, р<0.001).Conclusion Patients after COVID-19 pneumonia one year after discharge from the hospital, compared to the follow-up data 3 months after the discharge, had an increased incidence of CVD, primarily due to the development of AH and CHF. EchoCG revealed changes in ventricular geometry associated with impairment of LV diastolic and systolic function evident as decreases in LV global longitudinal strain and LV myocardial apical and partially mid-cavity strain.
Coronavirus disease 2019 (COVID-19) affects the function of all organs and systems. Today, studying the effect of COVID-19 on cardiovascular system, including on echocardiographic characteristics, is relevant.Aim. To study the prevalence of symptoms, cardiovascular disease and changes in echocardiographic data in persons after documented COVID-19 pneumonia 3 months after discharge from the hospital.Material and methods. The study included 106 patients after documented COVID-19 pneumonia. The patients underwent a comprehensive examination during hospitalization and 3 months±2 weeks after discharge from the hospital. The mean age of participants was 47±16 years (19-84 years); 49% of subjects were women.Results. Three months after hospital discharge, the symptoms persisted in 86% of examined patients. There were significant echocardiographic changes as follows: a decrease in LV end-diastolic, end-systolic and stroke volume (113,8±26,8 ml vs 93,5±29,4 ml; 37,7±13,0 ml vs 31,3±14,2 ml; 77,2±17,8 ml vs 62,2±18,7 ml, respectively, p<0,001 for all). The right ventricular anteroposterior dimension and the pulmonary trunk diameter decreased over time (26,0 [24,0-29,3] mm vs 25,0 [23,0-27,0] mm, p=0,004; 21,7±3,6 mm vs 18,7±2,5 mm, p<0,001), the same as the pulmonary artery systolic pressure, estimated by tricuspid regurgitation gradient (28,0 [25,0-32,25] mm Hg vs 21,5 [17,0-25,0] mm Hg). The right atrial volume (42,0 [37,0-50,0] m><0,001), the same as the pulmonary artery systolic pressure, estimated by tricuspid regurgitation gradient (28,0 [25,0-32,25] mm Hg vs 21,5 [17,0-25,0] mm Hg). The right atrial volume (42,0 [37,0-50,0] ml vs 31,0 [22,0-36,5] ml, p<0,001) a><0,001) and maximum width (36,1±4,6 mm vs 34,5±6,5 mm, p=0,023) decreased, while the right atrial maximum length increased (46,7±6,8 mm vs 48,6±7,1 mm, p=0,021).Conclusion. In survivors of COVID-19 pneumonia three months after hospital discharge, complaints persisted in 86% of cases. Cardiovascular diseases were detected in 52% of participants, including hypertension in 48,1% and coronary artery disease in 15,1%. Compared with in-hospital data, the echocardiographic characteristics improved, which was expressed mainly in a decrease in right heart load.
Coronavirus disease 2019 (COVID-19) is an infectious disease that affects almost all organs and systems. The main target is the respiratory system, but cardiovascular involvement is also common. Today, it is relevant to study the effect of complicated COVID-19 course on the patient’s cardiovascular system after hospital discharge — in particular, echocardiographic parameters.Aim. To study the echocardiographic parameters of patients with COVID-19 pneumonia 3 months after discharge from the hospital.Material and methods. The study included 106 patients with documented COVID-19 pneumonia. Patients underwent a comprehensive examination during hospitalization and 3 months ± 2 weeks after hospital discharge. The mean age of participants was 47±16 years (from 19 to 84 years), while 49% were women.Results. Three months after discharge, the average body mass index of the subjects was 28,2±5,7 kg/m2. Obesity was noted in 37,1%, cardiovascular diseases — in 52%. According to echocardiography, the prevalence of right ventricular (RV) dilatation was 2,9%, a decrease in tricuspid annular plane systolic excursion (TAPSE) — 9,5%, grade ≥2 tricuspid regurgitation — 1,9%, pulmonary hypertension (pulmonary artery systolic pressure >36 mm Hg) — 3,8%. The mean value of RV global longitudinal myocardial strain (GLMS RV) and global longitudinal myocardial strain (GLES RV) was 19,6±4,5 and 20,6±4,6, respectively. We found moderate correlations between GLMS RV and blood flow time through the left ventricular outflow tract (OT) (r=-0,436), through the mitral valve (r=-0,390; both p<0,0001) and through the RVOT (r=-0,348; р=0,004), with cardiac index (CI) (r=0,316; p=0,009), as well as between GLES RV and blood flow time through the LVOT (r=-0,411; p<0,0001) and RVOT (r=-0,300; p=0,005), and with CI (r=0,302; p=0,004). At the same time, the correlation of GLES RV with RV fractional area change (FAC) was weak (r=-0,283; p=0,007), while there was no correlation with the TAPSE. In addition, correlation of GLMS RV with these parameters were not defined.Conclusion. Three months after COVID-19 pneumonia, RV strain parameters were shown to have stronger relationships with time characteristics of flows in LVOT and RVOT, as well as with CI, than with such generally accepted characteristics of RV function as FAC and TAPSE.
BackgroundSome patients with congestive heart failure have greater improvement of cardiac remodelling after cardiac resynchronisation therapy (CRT) and they are identified as super-responders (SRs). It remains unclear if echocardiographic markers of dyssynchrony could accuratelly predict super-response to CRT. The aim of this study is to evaluate potential echocardiographic predictors associated with super-response to CRT.MethodsFifthy nine CRT patients (mean age 52.9 ± 9.0 years, 88% men) with congestive heart failure (54% ischaemic and 46% non-ischaemic aetiology) II-IV NYHA functional class were enrolled. To assess mechanical dyssynchrony we evaluated interventricular mechanical delay, the maximum delay between peak systolic velocities of the septal and posterior walls of left ventricle, duration of left ventricular pre-ejection period (LVPEP), left ventricular and interventricular dyssynchrony by tissue Doppler imaging and systolic dyssynchrony index by 3D echocardiography. After six months the patients were assessed for response and classified as SRs (reduction in left ventricular end-systolic volume (LVESV) ≥30%, n = 20) and non-SRs (reduction in LVESV < 30%, n = 39) and baseline data were analyzed to identify the predictors.ResultsBoth groups demonstrated significant improvement in NYHA functional class, increase in left ventricular ejection fraction and reduction in LVESV. All parameters of mechanical dyssynchrony at baseline were significantly higher in SR group. Multiple logistic regression analysis showed that LVPEP (HR 1.031; 95% CI 1.007–1.055; p = 0.011) was an independent predictor for CRT super-response. In ROC curve analysis LVPEP with a cut-off value of 147 ms demonstrated 73.7% sensitivity and 75% specificity (AUC = 0.753; p = 0.002) for the prediction of super-response to CRT.ConclusionGreater mechanical dyssynchrony is associated with super-response to CRT in patients with congestive heart failure. It is probable that an LVPEP > 147 ms can be used as independent predictor of super-response.
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