三维超声容积血流定量：定量成像生物标志物联盟内的多中心多系统研究结果。

Three-dimensional US for Quantification of Volumetric Blood Flow: Multisite Multisystem Results from within the Quantitative Imaging Biomarkers Alliance.

机构信息

From the Department of Radiology, Michigan Medicine, University of Michigan, 1301 Catherine St, Med Sci I R3218D, Ann Arbor, MI 48109-5667 (O.D.K., S.Z.P., P.L.C., J.M.R., J.B.F.); Sun Nuclear, Middleton, Wis (C.B.); University of Washington, Seattle, Wash (M.F.B.) Department of Radiology, Mayo Clinic College of Medicine, Rochester, Minn (S.C.); Canon Medical Systems USA, Tustin, Calif (T.N.E.); Department of Ultrasound in Research and Education, Rocky Vista University, Ivins, Utah (J.G.); Department of Diagnostic Radiology, Cleveland Clinic Lerner College of Medicine, Case Western Reserve University, Cleveland, Ohio (N.O.); Department of Radiology, University of Alabama at Birmingham, Birmingham, Ala (M.L.R., M.E.L.); Siemens Healthcare, Issaquah, Wash (A.M.); and Department of Medical Physics, University of Wisconsin-Madison, Madison, Wis (J.A.Z.).

出版信息

Radiology. 2020 Sep;296(3):662-670. doi: 10.1148/radiol.2020191332. Epub 2020 Jun 30.

DOI:10.1148/radiol.2020191332

PMID:32602826

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7457950/

Abstract

Background Quantitative blood flow (QBF) measurements that use pulsed-wave US rely on difficult-to-meet conditions. Imaging biomarkers need to be quantitative and user and machine independent. Surrogate markers (eg, resistive index) fail to quantify actual volumetric flow. Standardization is possible, but relies on collaboration between users, manufacturers, and the U.S. Food and Drug Administration. Purpose To evaluate a Quantitative Imaging Biomarkers Alliance-supported, user- and machine-independent US method for quantitatively measuring QBF. Materials and Methods In this prospective study (March 2017 to March 2019), three different clinical US scanners were used to benchmark QBF in a calibrated flow phantom at three different laboratories each. Testing conditions involved changes in flow rate (1-12 mL/sec), imaging depth (2.5-7 cm), color flow gain (0%-100%), and flow past a stenosis. Each condition was performed under constant and pulsatile flow at 60 beats per minute, thus yielding eight distinct testing conditions. QBF was computed from three-dimensional color flow velocity, power, and scan geometry by using Gauss theorem. Statistical analysis was performed between systems and between laboratories. Systems and laboratories were anonymized when reporting results. Results For systems 1, 2, and 3, flow rate for constant and pulsatile flow was measured, respectively, with biases of 3.5% and 24.9%, 3.0% and 2.1%, and -22.1% and -10.9%. Coefficients of variation were 6.9% and 7.7%, 3.3% and 8.2%, and 9.6% and 17.3%, respectively. For changes in imaging depth, biases were 3.7% and 27.2%, -2.0% and -0.9%, and -22.8% and -5.9%, respectively. Respective coefficients of variation were 10.0% and 9.2%, 4.6% and 6.9%, and 10.1% and 11.6%. For changes in color flow gain, biases after filling the lumen with color pixels were 6.3% and 18.5%, 8.5% and 9.0%, and 16.6% and 6.2%, respectively. Respective coefficients of variation were 10.8% and 4.3%, 7.3% and 6.7%, and 6.7% and 5.3%. Poststenotic flow biases were 1.8% and 31.2%, 5.7% and -3.1%, and -18.3% and -18.2%, respectively. Conclusion Interlaboratory bias and variation of US-derived quantitative blood flow indicated its potential to become a clinical biomarker for the blood supply to end organs. © RSNA, 2020 See also the editorial by Forsberg in this issue.

摘要

背景使用脉冲波超声进行定量血流 (QBF) 测量需要满足难以实现的条件。成像生物标志物需要是定量的，并且不依赖于用户和机器。替代标志物（例如，阻力指数）无法量化实际容积流量。标准化是可能的，但依赖于用户、制造商和美国食品和药物管理局之间的合作。

目的评估一种由定量成像生物标志物联盟支持的、用户和机器独立的超声方法，用于定量测量 QBF。

材料与方法在这项前瞻性研究中（2017 年 3 月至 2019 年 3 月），在三个不同的临床超声扫描仪中，在三个不同的实验室中，在校准的流量体模中对 QBF 进行基准测试。测试条件涉及流速（1-12 毫升/秒）、成像深度（2.5-7 厘米）、彩色血流增益（0%-100%）和血流通过狭窄部位的变化。每种条件均在每分钟 60 次心跳的恒流和脉冲流下进行，因此产生了八种不同的测试条件。使用高斯定理，通过三维彩色流速、功率和扫描几何形状计算 QBF。在系统之间和实验室之间进行统计分析。在报告结果时对系统和实验室进行匿名处理。

结果对于系统 1、2 和 3，分别测量了恒流和脉冲流的流速，其偏倚分别为 3.5%和 24.9%、3.0%和 2.1%以及-22.1%和-10.9%。变异系数分别为 6.9%和 7.7%、3.3%和 8.2%以及 9.6%和 17.3%。对于成像深度的变化，偏倚分别为 3.7%和 27.2%、-2.0%和-0.9%以及-22.8%和-5.9%。相应的变异系数分别为 10.0%和 9.2%、4.6%和 6.9%以及 10.1%和 11.6%。对于彩色血流增益的变化，用彩色像素填充管腔后的偏倚分别为 6.3%和 18.5%、8.5%和 9.0%以及 16.6%和 6.2%。相应的变异系数分别为 10.8%和 4.3%、7.3%和 6.7%以及 6.7%和 5.3%。狭窄后血流的偏倚分别为 1.8%和 31.2%、5.7%和-3.1%以及-18.3%和-18.2%。

结论超声衍生定量血流的实验室间偏差和变异性表明其有可能成为终末器官血液供应的临床生物标志物。

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三维超声容积血流定量：定量成像生物标志物联盟内的多中心多系统研究结果。

Three-dimensional US for Quantification of Volumetric Blood Flow: Multisite Multisystem Results from within the Quantitative Imaging Biomarkers Alliance.

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