Khansari Maziyar M, Wanek Justin, Felder Anthony E, Camardo Nicole, Shahidi Mahnaz
IEEE Trans Med Imaging. 2016 Feb;35(2):605-11. doi: 10.1109/TMI.2015.2486619. Epub 2015 Oct 6.
The conjunctival microcirculation is accessible for direct visualization and quantitative assessment of microvascular hemodynamic properties. Currently available methods to assess hemodynamics in the conjunctival microvasculature use manual or semi-automated algorithms, which can be inefficient for application to a large number of microvessels within the microvascular network. We present an automated image analysis method for measurements of diameter and blood velocity in microvessels. The method was applied to conjunctival microcirculation images acquired in 15 healthy human subjects. Frangi filtering, thresholding, and morphological closing were applied to automatically segment microvessels, while variance filtering was used to detect blood flow. Diameter and blood velocity were measured in arterioles and venules within the conjunctival microvascular network, and blood flow and wall shear rate were calculated. Repeatability and validity of hemodynamic measurements were established. The automated image analysis method allows reliable, rapid and quantitative assessment of hemodynamics in the conjunctival microvascular network and can be potentially applied to microcirculation images of other tissues.
结膜微循环便于直接观察和对微血管血液动力学特性进行定量评估。目前用于评估结膜微血管系统血液动力学的方法采用手动或半自动算法,应用于微血管网络内大量微血管时效率可能较低。我们提出一种用于测量微血管直径和血流速度的自动图像分析方法。该方法应用于15名健康人类受试者获取的结膜微循环图像。使用弗郎吉(Frangi)滤波、阈值处理和形态学闭运算自动分割微血管,同时使用方差滤波检测血流。测量结膜微血管网络内小动脉和小静脉的直径和血流速度,并计算血流量和壁面切应力。确定了血液动力学测量的可重复性和有效性。这种自动图像分析方法能够对结膜微血管网络的血液动力学进行可靠、快速和定量的评估,并且有可能应用于其他组织的微循环图像。