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引用次数: 6
摘要
作者介绍了从动脉造影时间序列测量横断面血流速度和流量的初步结果和新技术进展。他们将质量守恒原理应用于血管中流动的血液和注入的造影剂,以便从一系列注入造影剂的图像中获得横截面速度的数学约束。Mongrain et al. (Computers in Cardiology, 1991)和其他作者讨论的先前使用的光流约束是这种约束的一个特例。拟议的框架也特别有效。数值方法从时间序列的图像窗口中计算流函数(单个图像),在后处理步骤中,截面速度场仅通过对流函数应用梯度算子来确定。
Physical models for measurement of blood velocity and flow from diagnostic images
The authors present preliminary results and new technical developments in measurement of cross-sectional blood velocities and flow from a time-sequence of arteriograms. They apply the conservation of mass principle to flowing blood and the injected contrast medium in a vessel in order to obtain mathematical constraints on cross sectional velocities from a sequence of contrast-injected images. The previously employed optical flow constraint discussed by Mongrain et al. (Computers in Cardiology, 1991) and other authors is found to be a special case of this constraint. The proposed framework is also particularly efficient. The numerical methods compute a stream function (a single image) from a window of images in a time-sequence, and in a post-processing step, the cross-sectional velocity field is determined simply by application, of a gradient operator to the stream function.<>
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