基于生理学的个性化冠状动脉血流模型以改善无创性血流储备分数的评估。

Physiologically personalized coronary blood flow model to improve the estimation of noninvasive fractional flow reserve.

机构信息

School of Biomedical Engineering, Sun Yat-sen University, Shenzhen, China.

School of Medicine, Southern University of Science and Technology, Shenzhen, China.

出版信息

Med Phys. 2022 Jan;49(1):583-597. doi: 10.1002/mp.15363. Epub 2021 Dec 7.

DOI:10.1002/mp.15363

PMID:34792807

Abstract

PURPOSE

Coronary outlet resistance is influenced by the quantification and distribution of resting coronary blood flow. It is crucial for a more physiologically accurate estimation of fractional flow reserve (FFR) derived from computed tomography angiography (CTA), referred to as FFRCT. This study presents a physiologically personalized (PP)-based coronary blood flow model involving the outlet boundary condition (BC) and a standardized outlet truncation strategy to estimate the outlet resistance and FFRCT.

METHODS

In this study, a total of 274 vessels were retrospectively collected from 221 patients who underwent coronary CTA and invasive FFR within 14 days. For FFRCT determination, we have employed a PP-based outlet BC model involving personalized physiological parameters and left ventricular mass (LVM) to quantify resting coronary blood flow. We evaluated the improvement achieved in the diagnostic performance of FFRCT by using the PP-based outlet BC model relative to the LVM-based model, with respect to the invasive FFR. Additionally, in order to evaluate the impact of the outlet truncation strategy on FFRCT, 68 vessels were randomly selected and analyzed independently by two operators, by using two different outlet truncation strategies at 1-month intervals.

RESULTS

The per-vessel diagnostic performance of the PP-based outlet BC model was improved, based on invasive FFR as reference, compared to the LVM-based model: (i) accuracy/sensitivity/specificity: 91.2%/90.4%/91.8% versus 86.5%/84.6%/87.6%, for the entire dataset of 274 vessels, (ii) accuracy/sensitivity/specificity: 88.7%/82.4%/90.4% versus 82.4%/ 76.5%/84.0%, for moderately stenosis lesions. The standardized outlet truncation strategy showed good repeatability with the Kappa coefficient of 0.908.

CONCLUSIONS

It has been shown that our PP-based outlet BC model and standardized outlet truncation strategy can improve the diagnostic performance and repeatability of FFRCT.

摘要

目的

冠状动脉流出阻抗受静息状态冠状动脉血流的定量和分布影响。对于更准确地评估基于计算机断层血管造影（CTA）的血流储备分数（FFR），即 FFRCT，这一点至关重要。本研究提出了一种基于生理学的（PP）冠状动脉血流模型，该模型涉及出口边界条件（BC）和标准化出口截断策略，以估计出口阻力和 FFRCT。

方法

本研究回顾性收集了 221 例在 14 天内行冠状动脉 CTA 和有创 FFR 的患者的 274 支血管。对于 FFRCT 的测定，我们采用了一种基于 PP 的出口 BC 模型，该模型涉及个性化的生理参数和左心室质量（LVM），以量化静息状态下的冠状动脉血流。我们评估了使用基于 PP 的出口 BC 模型相对于基于 LVM 的模型，在与有创 FFR 相关方面，对 FFRCT 诊断性能的改善情况。此外，为了评估出口截断策略对 FFRCT 的影响，我们在 1 个月的间隔内，由两名操作人员分别使用两种不同的出口截断策略，对 68 支血管进行了独立分析。

结果

基于有创 FFR 作为参考，与基于 LVM 的模型相比，基于 PP 的出口 BC 模型的每支血管的诊断性能得到了改善：（i）整体数据集 274 支血管的准确性/敏感性/特异性：91.2%/90.4%/91.8%对 86.5%/84.6%/87.6%，（ii）中度狭窄病变的准确性/敏感性/特异性：88.7%/82.4%/90.4%对 82.4%/76.5%/84.0%。标准化出口截断策略的 Kappa 系数为 0.908，具有良好的重复性。

结论

结果表明，我们的基于 PP 的出口 BC 模型和标准化出口截断策略可以提高 FFRCT 的诊断性能和重复性。

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基于生理学的个性化冠状动脉血流模型以改善无创性血流储备分数的评估。

Physiologically personalized coronary blood flow model to improve the estimation of noninvasive fractional flow reserve.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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