24 Gliflozins and ventricular function in patients affected by chronic heart failure with diabetes mellitus

Aims Diabetes is the most common comorbidity of HF patients. SGLT2 inhibitors has been shown to reduce hospitalization in patients with HF. The cardioprotective mechanisms of gliflozines have not been elucidated. The aim of our study was to evaluate the effect of SGLT2 inhibitors on right and left ventricular function in T2DM patients with HF. Methods and results One hundred and fifteen consecutive outpatients with CHF and T2DM were screened in the Daunia Heart Failure Registry. Seventy-eight of them were enrolled and followed up between May 2019 and September 2020. All patients underwent conventional, TDI and strain echocardiography in an ambulatory setting, at the beginning and after 3 months of therapy with SGLT2 inhibitors. Seventy-eight consecutive outpatients with CHF and T2DM (mean age 67.4 ± 8.4 years, male: 83%) were enrolled in the study. Thirty-eight of them started the treatment with SGLT2 inhibitors, while the remaining forty continued their original therapy. After 3 months of therapy, LVEF, LVEDD, and LVESD statistically improved (respectively, from 39.68 ± 7.78% to 45.08 ± 9.04%, P: 0.001 and 57.32 ± 9.76 mm to 54.16 ± 6.54 mm, P: 0.01 and from 47.51 ± 1.58 mm to 43.24 ± 8.12, P: 0.0008). Changes in left ventricular function and dimensions were not significant in patients who did not started a therapy with SGLT2 inhibitors. There was a statistically significant reduction of E/E′ (from 16.51 ± 22.55 to 9.73 ± 3.35, P: 0.0007) in patients with treatment with SGLT2i. Moreover, there was an improvement of right ventricular function, due to a statistically significant reduction of PAPs and increase of TAPSE (respectively, from 30.63 ± 8.80 to 24.00 ± 8.35, P: 0.008; from 19.16 ± 2.54 to 21.18 ± 2.84, P: 0.0003) and S′ (10.42 ± 2.09 to 12.91 ± 2.50, P: 0.000) 3 months after the administration of SGLT2 inhibitors therapy vs. the control group. Conclusions In a real-world scenario, our results showed that the treatment with SGLT-2 inhibitors in patients with CHF and diabetes is associated with an echocardiographic biventricular function improvement.

Layer‐specific strain echocardiography may reflect regional myocardial impairment in patients with hypertrophic cardiomyopathy

Our study aimed to determine whether layer-specific strain (LSS) could reflect regional myocardial impairment in patients with hypertrophic cardiomyopathy (HCM). The study enrolled 50 patients with HCM and 30 age-matched healthy controls. Transmural gradient of longitudinal strain (TGLS), defined as the difference between the longitudinal strain of the endocardium and epicardium in a left ventricular segment, was used to reflect layer-specific myocardial impairment. Negative TGLS was consistently observed in healthy controls. The TGLS was relatively consistent within the basal, middle, and apical levels in healthy controls,but showed a significant gradient from the base towards the apex. In patients with HCM, the hypertrophic segments had significantly higher TGLS than the relatively normal segments or healthy controls at all 3 levels (0.14 % ± 3.48 % vs. −2.65 % ± 4.44 % vs. −2.17 % ± 1.66 % for basal, − 0.72 % ± 3.71 % vs. −4.02 % ± 4.00 % vs. −3.58 % ± 2.29 % for middle, and − 8.69 % ± 7.96 % vs. −11.44 % ± 6.65 % vs. −10.04 % ± 3.20 % for apex). Abnormal TGLS, defined as positive TGLS, in patients with HCM was associated with chest pain. In receiver operating characteristic curve analysis, a large area of abnormal TGLS (> 4 segments) had moderate accuracy for predicting chest pain (sensitivity, 73.3 %; specificity, 70.0 %). TGLS, a novel LSS derived parameter, may reflect regional myocardial impairment in patients with HCM.

Left and right ventricular dysfunction in patients with COVID-19-associated myocardial injury

Purpose SARS-COV-2 infection can develop into a multi-organ disease. Although pathophysiological mechanisms of COVID-19-associated myocardial injury have been studied throughout the pandemic course in 2019, its morphological characterisation is still unclear. With this study, we aimed to characterise echocardiographic patterns of ventricular function in patients with COVID-19-associated myocardial injury. Methods We prospectively assessed 32 patients hospitalised with COVID-19 and presence or absence of elevated high sensitive troponin T (hsTNT+ vs. hsTNT-) by comprehensive three-dimensional (3D) and strain echocardiography. Results A minority (34.3%) of patients had normal ventricular function, whereas 65.7% had left and/or right ventricular dysfunction defined by impaired left and/or right ventricular ejection fraction and strain measurements. Concomitant biventricular dysfunction was common in hsTNT+ patients. We observed impaired left ventricular (LV) global longitudinal strain (GLS) in patients with myocardial injury (-13.9% vs. -17.7% for hsTNT+ vs. hsTNT-, p = 0.005) but preserved LV ejection fraction (52% vs. 59%, p = 0.074). Further, in these patients, right ventricular (RV) systolic function was impaired with lower RV ejection fraction (40% vs. 49%, p = 0.001) and reduced RV free wall strain (-18.5% vs. -28.3%, p = 0.003). Myocardial dysfunction partially recovered in hsTNT + patients after 52 days of follow-up. In particular, LV-GLS and RV-FWS significantly improved from baseline to follow-up (LV-GLS: -13.9% to -16.5%, p = 0.013; RV-FWS: -18.5% to -22.3%, p = 0.037). Conclusion In patients with COVID-19-associated myocardial injury, comprehensive 3D and strain echocardiography revealed LV dysfunction by GLS and RV dysfunction, which partially resolved at 2-month follow-up. Trial registration COVID-19 Registry of the LMU University Hospital Munich (CORKUM), WHO trial ID DRKS00021225.