Turbulent kinetic energy measurements successfully distinguished severe aortic stenosis (SGc) from non-severe (SGa and SGb) at flow rates of 4 L/min, with pressure gradients of 41 mmHg ± 14.
Does ultrasound color Doppler echocardiography accurately measure turbulent kinetic energy to grade aortic stenosis severity compared to particle tracking velocimetry in an ex-vivo model?
Ultrasound color Doppler echocardiography can accurately estimate turbulent kinetic energy to differentiate severe from non-severe aortic stenosis in an ex-vivo model, suggesting potential as a new diagnostic tool.
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Abstract Introduction Grading of aortic stenosis (AS) is paramount to determine the ideal timing for aortic valve replacement. However, echocardiographic assessment of AS is challenging and subject to inaccuracy. Increased turbulent kinetic energy (TKE) in the aorta, created by a restricted opening stenotic aortic valve, could serve as a new marker for assessing AS severity. However, in this contest, TKE evaluated with ultrasound color Doppler have not yet been clinically validated. Methods Porcine aortic valves were tested ex-vivo in a left heart mock loop under various flowrates (1, 2.5 and 4L/min) and three stiffness grades (SGa, SGb, SGc as native, stiffer, and stiffest stiffness grade, respectively). Reference TKE values were obtained using backlight particle tracking velocimetry. In parallel, TKE was estimated from ultrasound color Doppler measurements by computing the local spatial fluctuations of blood flow velocities. Transvalvular pressure gradients were evaluated both with continuous wave Doppler and pressure sensors (PGaolv). Results At 4 L/min, pressure gradients with continuous wave Doppler for SGc reached severe AS levels (41 mmHg ± 14). Both TKE measurement methods, adjusted for flow rates, increased significantly across all stiffness grades and distinguished between severe (SGc) and non-severe (SGa and SGb) AS. Conclusions In this ex-vivo AS model, both TKE measurement methods successfully differentiated severe from non-severe AS. These findings underscore the potential importance of ultrasound color Doppler echocardiography in estimating energy loss through turbulence, paving the way for the development of a new diagnostic tool for grading AS severity.
Buffle et al. (Mon,) reported a other. Turbulent kinetic energy measurements successfully distinguished severe aortic stenosis (SGc) from non-severe (SGa and SGb) at flow rates of 4 L/min, with pressure gradients of 41 mmHg ± 14.