Journal
EUROINTERVENTION
Volume 10, Issue 5, Pages 574-583Publisher
EUROPA EDITION
DOI: 10.4244/EIJY14M07_01
Keywords
computational fluid dynamics; fractional flow reserve; functional assessment; quantitative coronary angiography
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Funding
- George D. Behrakis Fellowship
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Aims: To develop a simplified approach of virtual functional assessment of coronary stenosis from routine angiographic data and test it against fractional flow reserve using a pressure wire (wire-FFR). Methods and results: Three-dimensional quantitative coronary angiography (3D-QCA) was performed in 139 vessels (120 patients) with intermediate lesions assessed by wire-FFR (reference standard: <0.80). The 3D-QCA models were processed with computational fluid dynamics (CFD) to calculate the lesion-specific pressure gradient (AP) and construct the AP flow curve, from which the virtual functional assessment index (vFAI) was derived. The discriminatory power of vFAI for ischaemia-producing lesions was high (area under the receiver operator characteristic curve [AUC]: 92% [95% CI: 86-96%]). Diagnostic accuracy, sensitivity and specificity for the optimal vFAI cut-point (<= 0.82) were 88%, 90% and 86%, respectively. VirtualFAT demonstrated superior discrimination against 3D-QCA derived % area stenosis (AUC: 78% [95% CI: 70-84%]; p<0.0001 compared to vFAI). There was a close correlation (r=0.78, p<0.0001) and agreement of vFAI compared to wire-FFR (mean difference: 0.0039+0.085, p=0.59). Conclusions: We developed a fast and simple CFD-powered virtual haemodynamic assessment model using only routine angiography and without requiring any invasive physiology measurements/hyperaemia induction. Virtual-FM showed a high diagnostic performance and incremental value to QCA for predicting wireFFR; this less invasive approach could have important implications for patient management and cost.
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