Introduction Left atrial (LA) function has been associated to right chambers hemodynamics in the context of mitral valve regurgitation (MR). However, this physiological interplay between left atrial function, mitral regurgitation and right ventricular (RV) parameters has not yet been clarified in patients with aortic valve stenosis (AS). Aim of the study To assess the combination of LA function and different MR grades with right chambers performance and pulmonary non-invasive hemodynamics status in patients with severe AS using an advanced automated echocardiographic approach. Methods Consecutive patients with severe AS referred to our institution were analyzed. Mitral regurgitation was classified according to integrative guideline-based criteria. 2D advanced speckle tracking echocardiography analysis was conducted to measure the LA peak atrial longitudinal strain (PALS) and right ventricular free wall strain, (RVFWS) using Tomtec Arena, version TTA2 41.00, with dedicated LV/LA/RV analysis option (Tomtec, Unterschlei heim, Germany). All conventional right chambers performance indexes were also measured: TAPSE, S'- TDI, fractional area change, systolic pulmonary artery pressure (sPAP). We featured 3 patients groups based on MR grade and LA function: (a) no/mild MR and preserved PALS (above the median); (c) >mild MR and reduced PALS; (b) the remaining patients with >mild MR and low PALS or >mild MR and high PALS. Results A total of 102 patients with severe aortic stenosis formed the study cohort: age was 82±9, 47% were female, mean left-ventricular-ejection-fraction 56%±12, more than mild MR was present in 24% of patients, mean PALS was 19±10%, sPAP 38±12 mmHg, RVFW strain 21±6%, and RVFW/sPAP 0.62±0.25. The 3 subgroups presented similar age and sex distribution. Right ventricular function significantly worsened moving from group (a) to (c); RVFW strain decreased from 25±5 (a) to 19±7 (b) and 17±5% (c), p<0.001; sPAP increased from 34±9 (a) to 39±12 (b) and 47±13 mmhg (c), p<0.001; and RVFW/sPAP decreased from 0.76±0.21 (a) to 0.54±0.23 (b) and 0.39±0.11 (c), p<0.001. Patients in the group (c) were more symptomatic (NYHA class III/IV increase from 40% in group a and 63% in group (b) to 80% in group c, p=0.006). When added to MR grade, in a logistic regression analysis, PALS provided incremental prediction of all right ventricular parameters (p<0.01). Conclusion This study highlights that the combination of MR and reduced LA function is associated with symptoms and RV impairment in patients with severe AS. These preliminary results suggest that preserved LA function may modulate the adverse effects of the AS-MR combination by preventing/delaying the development of pulmonary hypertension and right ventricular dysfunction. Funding Acknowledgement Type of funding sources: None.
Introduction The prognostic role of RV function assessment in severe AS has been demonstrated in previous studies. However, the role of 2D speckle tracking RV evaluation in the context of severe AS has not been completely clarified. Methods We retrospectively evaluated consecutive patients with severe AS referred to TAVI at our institution. Exclusion criteria were severe aortic regurgitation, severe mitral stenosis and poor acoustic window for a correct 2D speckle tracking right chamber evaluation. The echocardiographic exams were analyzed off-line with a semi-automatic software (Tomtec Arena, Autostrain ®) to assess RVFW strain and LV GLS. Additionally, a conventional echocardiographic evaluation was made in both right and left chambers (LVEF, FAC, LVEF). Prevalence of conventional RV disfunction was defined as a TAPSE<17 mm or FAC<35%. RVFW impairment cuf-off was defined below 20%. Multivariate regression models were elaborate to assess the major determinants of RV function. Moreover, logistic regression analysis has been made to analyze if RV function could predict high-risk clinical features in the context of severe AS. Results Our cohort was composed of 110 consecutive patients. Mean RVFW was 21±7%, TAPSE 21±4 mm, FAC 44±11% and mean RV area 10±4 cmq/mq. The prevalence of RV disfunction defined by standard echocardiography was 26% (29 patients), instead, RVFW was impaired (below 20%) in 53 patients (40%). At multivariate regression analysis, the main RVFW determinants were MR, AS severity, LVMI, GLS and E/e’ (R2 0.68, p<0.001 including AVA; R2 0.53, p<0.001 including mean gradient). At logistic regression analysis RVFW strain was associated with previous HF hospitalization admission independently from TAPSE (CI 95% 1.03–1.22, p=0.008). Furthermore in a second model, RVFW strain was a significant predictor of advanced NYHA class independently from FAC (CI 95%, 1.01–1.18, p=0.0036). Conclusion The major determinants of RV function in patients with severe AS were MR and LV function. A pressure overload driven by the MR-LV dysfunction combination on right sided heart could impact profoundly negatively on RV function. RVFW strain in this study resulted a more sensitive parameter that conventional RV assessment in highlighting more symptomatic severe-AS patients.
1. Introduction Caseous Calcification of the Mitral Annulus (CCMA) is a rare condition characterized by a liquefaction degeneration that usually involves posterior mitral ring and it is considered a variant of mitral annulus calcification. Its prevalence is very low, but it is possible that it is often underdiagnosed or misdiagnosed. This condition is related with increased age, female sex, chronic kidney disease and calcium metabolism disorders. The lesion can be detected using imaging techniques and its management is conservative in most cases. 2. Case Study A 72-year-old man hospitalized for bilateral pneumonia complicated with ARDS has come to our attention. The patient had a history of stage IV renal failure, type 2 diabetes mellitus and calcific degenerative aortic valve disease. During its stay in the Intensive Care Unit a routine Transthoracic Echocardiogram showed a vegetation suspected for infective endocarditis that involved the posterior mitral leaflet. However, the clinical presentation did not support endocarditis diagnosis as no microorganisms were isolated at multiple blood cultures and other Duke Criteria were negative. Given the limited acoustic viewing of transthoracic echocardiogram it was necessary to perform a Transesophageal Echocardiogram (TEE) for a better characterization of the valve lesion. TEE showed the presence of a round lesion, about 2×2 cm in size, with smooth borders, located over the mitral annulus with extension up to the posterior mitral leaflet and with a partially mobile portion. The lesion had a corpuscular appearance inside with less echogenicity and without evidence of flow. No significant functional alterations of the mitral valve were detected (anterograde transmitral flow Mean Gradient 4-5 mmHg; Mild regurgitation). We therefore concluded for Caseous Calcification of the Mitral Annulus as the most likely diagnosis and decided for a conservative management. A new TEE was performed as a control after one week showing no significant changes on the valve lesion. 3. Conclusions It is important for echocardiographers to be familiar with CCMA and to know how to distinguish it from other valve lesions such as infective vegetation, abscesses or tumors. An integration with other cardiac imaging techniques, patient past medical history and clinical-laboratory data can help the physician in the correct characterization of valve lesions and subsequent most appropriate therapeutic approach for the patient.
Introduction Echocardiographic evaluation of severe aortic stenosis (SAS) is is important to guide the therapeutic approach but often challenging. Recent studies have demonstrated that the ratio of acceleration time/ejection time (AT/ET) is a simple and reproducible echocardiographic parameter that integrates aortic stenosis severity evaluation and adds information on patient's prognosis. Aim The aim of the study is to investigate the role of the ratio of acceleration time (AT) and ejection time (ET) and its major determinants in severe aortic stenosis . Methods Consecutive echocardiograms of patients with severe AS referred to our center were analyzed offline using Tomtec Arena (Tomtec, Untershlei heim, Germany). AT was measured from the start of the CW Doppler aortic wave, to the peak of the aortic jet. ET was calculated from the same starting point, to the end of the CW Doppler aortic wave. Results A total of 135 patients with severe aortic stenosis formed the study cohort: patients with AT/ET below the median value of 0.35 (vs. higher) presented lower LVEDV (60 vs. 71 ml/mq; p 0.014), left ventricle mass index (116 vs 130 g/m2; p 0.035) and higher LVEF (58 vs 50%; p 0.001), GLS (- 14 vs - 12%; p 0.025), FAC (46 vs 41%; p 0.01), SBP (141 vs 131 mmHg; p 0.003). At multivariable analysis the major AT/ET determinants were systolic arterial pressure and bi-ventricular performance parameters. The following nested regression were created: the first inclusive of systolic arterial pressure (PAS), fractional area change (FAC), left ventricular mass indexed (LVMI), global longitudinal strain (GLS) (R2=0.48 p<0.001), the second inclusive of PAS, FAC, LVMI, GLS, AVA (R2=0.57, p<0.001), the third inclusive of PAS, FAC, LVMI, LVEF, AVA (R2=0.64, p<0.001). Conclusion Our study demonstrated that AT/ET ratio relates quite well with LV performance in the context of SAS. An high ACT/ET ratio tends to be associated with a poor bi-ventricular performance and LV negative remodeling. It is possible that this simple parameter in the next future could help in staging the disease among SAS patients.
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