Intraventricular Vortex Interaction between Transmitral Flow and Paravalvular Leak

Abstract Paravalvular leak (PVL) is a complication of transcatheter aortic valve replacement. Despite its marked clinical impact, no previous study has reported how PVL affects the intraventricular fluid dynamics. This study aims to delineate vortex interaction between PVL and transmitral flow and the influence of PVL orifice location on intraventricular fluid dynamics using Echocardiographic Particle Image Velocimetry. Three different conditions of no PVL, anterior PVL and posterior PVL were experimentally studied and clinically compared. Circulation, impulse, kinetic energy (KE) and change in KE (ΔKE) were calculated. As well, vortex formation analyses and streamline description were performed to study vortex interactions. The anterior PVL jet streamed into the LV and interfered with the transmitral flow. Posterior PVL jet formed a large clockwise vortex and collided with transmitral flow, which resulted in flow disturbance. Compared to no PVL condition, average circulation, impulse, KE and ΔKE increased in presence of PVL. In conclusion, we found that PVL jets lead to abnormal vortex formation that interfere with natural advancement of transmitral flow, and negatively affect the LV fluid dynamics parameters. PVL orifice location strongly affects the intraventricular vortex formation, and posterior PVL may have more negative effects compared to anterior PVL

Cardiovascular Organ Damage in Clinical Subtypes of Systemic Sclerosis: Arterial Stiffness and Echocardiography Might Not Be the Ideal Tools for Patient Risk Stratification

Background. Vascular damage is recognized as a diagnostic landmark in systemic sclerosis (SSc), both in its limited and diffuse subtypes. Early detection at a subclinical stage with transthoracic echocardiography (TTE) and carotid femoral pulse wave velocity (cfPWV) may be helpful in therapeutic planning and management. Aim of the Study. The aim of the study was to evaluate presence of subclinical cardiovascular damage in patients with limited and diffuse SSc in comparison with a cohort of healthy individuals. Methods. Consecutive patients with limited and diffuse SSc underwent complete TTE and cfPWV and a complete review of clinical data. As controls, 23 healthy subjects with similar hemodynamic profiles were selected. Results. 41 patients (35 female, aged 56.9 years), 21 with diffuse and 20 with limited SSc, were recruited. Past medical history, cardiovascular risk factors, gender distribution, and disease duration were similar in the two groups as well as TTE parameters and hemodynamic indexes—cfPWV (6.5 [6–6.8] vs. 7.0 [6.2–8.5], p=0.24) and augmentation index (145.6 ± 14.2 vs. 149 ± 20.6, p=0.52). Patients with limited SSc were 10 years older than patients with diffuse SSc. In the multiple regression analysis, only age (p=0.0154) and disease duration (p=0.0467) resulted as the significant determinant of cfPWV. When compared to healthy controls, no significant difference emerged in TTE or hemodynamic indexes. Conclusion. In SSc, cfPWV increases with age, with no additional impact of pathology or subtype. Vascular damage in the SSc population is not accurately reflected in increased arterial stiffness, as evaluated with cfPWV, or classically defined echocardiographic findings of organ damage (i.e., left ventricular concentric remodelling and increased filling pressures)

Left ventricular geometry and 24-h blood pressure profile in Cushing’s syndrome

none8noCushing's syndrome (CS) is associated with cardiovascular disease. The impact of the hemodynamic load on left ventricular mass (LVM) in patients with CS is not well known. In fact, the effects of 24-h blood pressure (BP) load and BP circadian rhythm on cardiac structure and function have not been studied. Aim of the present study has thus been to assess the presence of cardiac remodeling in patients with newly diagnosed CS, combining evaluation of cardiac remodeling and assessment of BP burden derived by 24-h ambulatory blood pressure monitoring (ABPM). 25 patients (4 M, 21 F) with CS underwent echocardiography in order to assess cardiac morphology and geometry (relative wall thickness-RWT). As controls, 25 subjects similar for demographic characteristics and 24-h BP were used. CS Patients were similar to controls by age, sex, mean 24-h BP, and body mass index. There was a significant increase in left ventricular mass (LVM; 44.4 ± 14.7 vs. 36.9 ± 10 g/m2.7, p = 0.03) and a significant increase in RWT (0.46 ± 0.07 vs. 0.41 ± 0.08, p = 0.02) in CS patients compared to controls. The prevalence of CS patients with pressure non-dipping profile was greater than that of controls (56 vs. 16 %, p < 0.05), with no significant association with LVM or geometry. 24-h urinary cortisol was not associated with LVM (r = 0.1, p = 0.5) or RWT (r = 0.02, p = 0.89) in the CS group. In conclusion, LVM and the concentric pattern of the left ventricle are relatively independent from 24-h BP load and profile (dipping/non-dipping) in CS patientsopenAvenatti, Eleonora; Rebellato, Andrea; Iannaccone, Andrea; Battocchio, Marialberta; Dassie, Francesca; Veglio, Franco; Milan, Alberto; Fallo, FrancescoAvenatti, Eleonora; Rebellato, Andrea; Iannaccone, Andrea; Battocchio, Marialberta; Dassie, Francesca; Veglio, Franco; Milan, Alberto; Fallo, Francesc

A Novel Approach to Left Ventricular Filling Pressure Assessment: The Role of Hemodynamic Forces Analysis

16Background: Diastolic function in patients with heart failure is usually impaired, resulting in increased left ventricular (LV) filling pressures, whose gold standard assessment is right heart catheterization (RHC). Hemodynamic force (HDF) analysis is a novel echocardiographic tool, providing an original approach to cardiac function assessment through the speckle-tracking technology. The aim of our study was to evaluate the use of HDFs, both alone and included in a new predictive model, as a potential novel diagnostic tool of the diastolic function.Methods: HDF analysis was retrospectively performed in 67 patients enrolled in the "Right1 study." All patients underwent RHC and echocardiography up to 2 h apart. Increased LV filling pressure (ILFP) was defined as pulmonary capillary wedge pressure (PCWP) >= 15 mmHg.Results: Out of 67 patients, 33 (49.2%) showed ILFP at RHC. Diastolic longitudinal force (DLF), the mean amplitude of longitudinal forces during diastole, was associated with the presence of ILFP (OR = 0.84 [0.70; 0.99], p = 0.046). The PCWP prediction score we built including DLF, ejection fraction, left atrial enlargement, and e' septal showed an AUC of 0.83 [0.76-0.89], with an optimal internal validation. When applied to our population, the score showed a sensitivity of 72.7% and a specificity of 85.3%, which became 66.7 and 94.4%, respectively, when applied to patients classified with "indeterminate diastolic function" according to the current recommendations.Conclusion: HDF analysis could be an additional useful tool in diastolic function assessment. A scoring system including HDFs might improve echocardiographic accuracy in estimating LV filling pressures. Further carefully designed studies could be useful to clarify the additional value of this new technology.openopenAirale, Lorenzo; Vallelonga, Fabrizio; Forni, Tommaso; Leone, Dario; Magnino, Corrado; Avenatti, Eleonora; Iannaccone, Andrea; Astarita, Anna; Mingrone, Giulia; Cesareo, Marco; Giordana, Carlo; Omedè, Pierluigi; Moretti, Claudio; Veglio, Franco; Pedrizzetti, Gianni; Milan, AlbertoAirale, Lorenzo; Vallelonga, Fabrizio; Forni, Tommaso; Leone, Dario; Magnino, Corrado; Avenatti, Eleonora; Iannaccone, Andrea; Astarita, Anna; Mingrone, Giulia; Cesareo, Marco; Giordana, Carlo; Omedè, Pierluigi; Moretti, Claudio; Veglio, Franco; Pedrizzetti, Gianni; Milan, Albert

Prevalence of proximal ascending aorta and target organ damage in hypertensive patients: the multicentric ARGO-SIIA project (Aortic RemodellinG in hypertensiOn of the Italian Society of Hypertension)

The aim of this study was to assess the prevalence of ascending aortic dilatation and to evaluate the possible association between proximal aorta dilatation and structural or functional markers of cardiac organ damage in hypertensive patients