Shear wave elastography: can we estimate filing pressures?

Abstract

Abstract Background The assessment of the left ventricular diastolic function is complex, as there is no single non-invasive parameter that provides a direct measurement of myocardial relaxation, myocardial compliance, or – as a surrogate - LV filling pressure. Estimation of diastolic function is therefore based on the combination of many parameters. Shear wave (SW) elastography (SWE) is a novel method based on high frame rate echocardiography. SWs occur after mechanical excitation of the myocardium, e.g. after mitral valve closure (MVC), and their propagation velocity is directly related to myocardial stiffness (MS). Purpose The aim of this study was to investigate if velocities of natural shear waves are related to MS at end diastole (ED) and, thus, could be used to estimate left ventricular end-diastolic pressures (LVEDP) as marker of diastolic function. Methods So far, we have prospectively enrolled 30 patients with a wide range of diastolic function, scheduled for heart catheterization so that LV filling pressures could be invasively measured. Patients with severe aortic stenosis, mitral stenosis of any degree and a more than moderate mitral regurgitation, as well as regional myocardial abnormalities or dysfunction in the anteroseptal wall were excluded. Echocardiography was performed immediately after catheterization. SW elastography in parasternal long axis views of the left ventricle (LV) was performed using an experimental scanner (HD-PULSE) at 1100±250 frames per second. Tissue acceleration maps were extracted from an anatomical M-mode line along the midline of the LV septum. The SW propagation velocity at MVC was measured as the slope on the M-mode acceleration map (Figure A). Results SW velocities at ED correlated very well with the invasively measured LVEDP (r=0.815, p<0.001, Figure B). In comparison, classical echocardiographic parameters correlated only weakly or not with LVEDP (E/A: r=0.528, p=0.036, Figure C; E/e': r=−0.169, p=0,531, Figure D) with LVEDP. For the detection of an elevated LVEDP above 15 mmHg, a cut off value for the SW velocity at MVC of 3.75 m/s was associated with a Sensitivity of 92.9% and a Specificity of 83.3%. Conclusions End-diastolic shear wave velocities, measured by high frame rate shear wave elastography, showed a significant correlation with the end-diastolic filling pressure of the LV indicating a potential clinical value of the new method for a non-invasive and direct assessment of LV diastolic function. More patients will be included to confirm these findings. Funding Acknowledgement Type of funding source: Public grant(s) – National budget only. Main funding source(s): Fonds Wetenschappelijk Onderzoek Flanderen (Research Foundation Flanders)