用于CT衍生的FFR诊断软件临床验证的3D打印心血管患者特异性体模

3D Printed Cardiovascular Patient Specific Phantoms Used for Clinical Validation of a CT-derived FFR Diagnostic Software.

作者信息

Sommer Kelsey N, Shepard Lauren, Karkhanis Nitant Vivek, Iyer Vijay, Angel Erin, Wilson Michael F, Rybicki Frank J, Mitsouras Dimitrios, Rudin Stephen, Ionita Ciprian N

机构信息

Department of Biomedical Engineering, University at Buffalo, Buffalo NY 14228.

Toshiba-Canon Stroke and Vascular Research Center, University at Buffalo, Buffalo NY 14208.

出版信息

Proc SPIE Int Soc Opt Eng. 2018 Feb;10578. doi: 10.1117/12.2292736. Epub 2018 Mar 12.

DOI:10.1117/12.2292736

PMID:29899591

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5994607/

Abstract

PURPOSE

3D printed patient specific vascular models provide the ability to perform precise and repeatable benchtop experiments with simulated physiological blood flow conditions. This approach can be applied to CT-derived patient geometries to determine coronary flow related parameters such as Fractional Flow Reserve (FFR). To demonstrate the utility of this approach we compared bench-top results with non-invasive CT-derived FFR software based on a computational fluid dynamics algorithm and catheter based FFR measurements.

MATERIALS AND METHODS

Twelve patients for whom catheter angiography was clinically indicated signed written informed consent to CT Angiography (CTA) before their standard care that included coronary angiography (ICA) and conventional FFR (Angio-FFR). The research CTA was used first to determine CT-derived FFR (Vital Images) and second to generate patient specific 3D printed models of the aortic root and three main coronary arteries that were connected to a programmable pulsatile pump. Benchtop FFR was derived from pressures measured proximal and distal to coronary stenosis using pressure transducers.

RESULTS

All 12 patients completed the clinical study without any complication, and the three FFR techniques (Angio-FFR, CT-FFR, and Benchtop FFR) are reported for one or two main coronary arteries. The Pearson correlation among Benchtop FFR/Angio-FFR, CT-FFR/ Benchtop FFR, and CT-FFR/ Angio-FFR are 0.871, 0.877, and 0.927 respectively.

CONCLUSIONS

3D printed patient specific cardiovascular models successfully simulated hyperemic blood flow conditions, matching invasive Angio-FFR measurements. This benchtop flow system could be used to validate CT-derived FFR diagnostic software, alleviating both cost and risk during invasive procedures.

摘要

目的

3D打印的患者特异性血管模型能够在模拟生理血流条件下进行精确且可重复的台式实验。这种方法可应用于从CT获取的患者几何模型，以确定与冠状动脉血流相关的参数，如血流储备分数（FFR）。为了证明这种方法的实用性，我们将基于计算流体动力学算法的非侵入性CT衍生FFR软件以及基于导管的FFR测量结果与台式实验结果进行了比较。

材料与方法

12例临床需要进行导管血管造影的患者在接受包括冠状动脉造影（ICA）和传统FFR（血管造影FFR）的标准治疗前，签署了CT血管造影（CTA）的书面知情同意书。首先使用研究性CTA确定CT衍生的FFR（Vital Images），其次生成主动脉根部和三条主要冠状动脉的患者特异性3D打印模型，并将其连接到可编程搏动泵。通过压力传感器测量冠状动脉狭窄近端和远端的压力，得出台式FFR。

结果

所有12例患者均无并发症地完成了临床研究，报告了三条主要冠状动脉中一或两条的三种FFR技术（血管造影FFR、CT-FFR和台式FFR）。台式FFR/血管造影FFR、CT-FFR/台式FFR和CT-FFR/血管造影FFR之间的Pearson相关性分别为0.871、0.877和0.927。

结论

3D打印的患者特异性心血管模型成功模拟了充血血流条件，与侵入性血管造影FFR测量结果相符。这种台式血流系统可用于验证CT衍生的FFR诊断软件，降低侵入性操作的成本和风险。

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Advanced 3D Mesh Manipulation in Stereolithographic Files and Post-Print Processing for the Manufacturing of Patient-Specific Vascular Flow Phantoms.用于制造患者特异性血管流动模型的立体光刻文件中的高级3D网格处理及打印后处理

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