Moderate-to-severe congenital aortic stenosis was associated with higher myocardial shear wave propagation velocity compared with healthy volunteers (4.7 vs 3.4 m/s; p=0.035).
Cross-Sectional (n=87)
Does shear wave elastography detect myocardial stiffening in adults with congenital aortic stenosis compared to healthy volunteers?
Shear wave elastography is a feasible non-invasive technique that detects higher myocardial stiffness in adults with moderate-to-severe congenital aortic stenosis compared to healthy volunteers.
Absolute Event Rate: 4.7% vs 3.4%
p-value: p=0.035
Background Congenital aortic stenosis (ConAoS) accounts for approximately 4%–8% of all congenital heart diseases. Chronic pressure overload may result in myocardial stiffening, leading to impaired cardiac filling, reduced contractility and ultimately contributing to the onset of symptomatic heart failure. Shear wave elastography (SWE), using high-frame-rate echocardiography, allows visualisation of myocardial shear waves. By measuring shear wave propagation velocity (SWV), this technique may enable non-invasive assessment of myocardial stiffness. This study aimed to explore the feasibility of SWE in adults with ConAoS and to compare SWV with healthy volunteers (HVs). Methods In 68 adult patients with ConAoS—including 17 patients after aortic valve replacement (AVR)—and 19 HVs, high-frame-rate recordings were acquired in the parasternal long-axis view. Custom software was used to measure SWV by manually placing M-mode lines through the interventricular septum after aortic valve closure. Results SWE feasibility was 73% in ConAoS patients with a native aortic valve (NV), 53% post-AVR and 100% in HVs. Median SWV was 4.7 m/s (3.2–5.5) in NV patients, 3.7 m/s (3.1–5.4) post-AVR and 3.4 m/s (3.0–4.4) in HVs (p=0.200). Patients with moderate-to-severe ConAoS demonstrated higher SWV compared with HVs (4.7 m/s (3.4–5.6) vs 3.4 m/s (3.0–4.4); p=0.035). Conclusions SWE is feasible in the majority of ConAoS patients. Higher SWV in moderate-to-severe ConAoS patients, despite preserved diastolic function in most cases, may reflect early myocardial mechanical alterations and provide a promising non-invasive marker for myocardial stiffening. Further technical optimisation and cross-platform validation are essential for clinical translation.
Zwaan et al. (Thu,) conducted a cross-sectional in Congenital aortic stenosis (n=87). Moderate-to-severe congenital aortic stenosis vs. Healthy volunteers was evaluated on Shear wave propagation velocity (SWV) (p=0.035). Moderate-to-severe congenital aortic stenosis was associated with higher myocardial shear wave propagation velocity compared with healthy volunteers (4.7 vs 3.4 m/s; p=0.035).