CTA-planimetry AV area cut-offs for severe aortic stenosis are higher in bicuspid valves (≤1.08cm²) than tricuspid (≤0.95cm²), reflecting valve shape impact.
Does CTA-planimetry accurately predict severe aortic stenosis in bicuspid aortic valves, and what are the appropriate cut-off values?
CTA-planimetry cut-off values for severe aortic stenosis are larger for bicuspid valves (≤1.08cm²) compared to tricuspid valves, highlighting the hemodynamic impact of valve shape.
Absolute Event Rate: 0% vs 0%
Abstract Background Aortic valve (AV) stenosis is quantified by transthoracic echocardiography (TTE). However, stenosis severity can remain inconclusive when TTE severity parameters are incongruent. AV-area (AVA) by CTA-planimetry (pAVACTA) may aid in these cases. Objectives Defining the role of CTA-planimetry for bicuspid (BC) AV stenosis by cut-off determination. TTE of conclusive patients with cut-off parameters established as Goldstandard for Tricuspid (TC) AVs was used as reference. Methods Severity classification of AV stenosis was performed using TTE with classification into conclusive if all three of the following criteria were congruent: Vmax≥4m/s 1.0cm² (3+ "severe", 3- "non-severe"). Retrospective, single center screening of 4059 pre-TAVI-CTA-scans (2012- 2023) yielded 133 conclusive BC cases. Cut-off values for pAVACTA as a 4th severity criteria marker were determined by first correlating pAVACTA to cAVATTE directly and second comparing different pAVACTA values for predicting "severe" stenosis via receiver operator curve (ROC). Results pAVACTA showed strong positive correlation with cAVATTE (Pearson-Correlation 0.780, p0.001) with Linear Regression yielding a correlating factor (contraction coefficient CC) of 0.84 (95% CI 0.810, 0.861, p0.001). ROC analysis (AUC 0.895, p0.001) yielded a cut-off range with severe stenosis "likely" at pAVACTA≤1.08cm² (Sens. 88.3%, Spec. 77.3% via Youden’s index) and "unlikely" at ≥1.2cm2 (-LR 0.091 at 1.20cm²). Having previously performed a similar analysis for TC Valves with resulting proposed pAVACTA cut-off values of ≤0.95cm² to support severe AS and ≥1.10cm2 to render it unlikely, direct comparison showed larger pAVACTA cut-off values for BC than TC Valves at a smaller CC (~0.84 vs ~0.91). Conclusion For a given pAVACTA the expected cAVATTE is smaller with this effect more pronounced in BC than in TC AVs. Cut-off values for pAVACTA as a 4th AV-stenosis severity marker should differentiate between BC and TC as hemodynamic impact depends on valve shape.Hemodynamic Effect of Valve Shape
Voegele et al. (Sat,) reported a other. CTA-planimetry AV area cut-offs for severe aortic stenosis are higher in bicuspid valves (≤1.08cm²) than tricuspid (≤0.95cm²), reflecting valve shape impact.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: