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使用磁共振速度图自动测量升主动脉中的容积流量:健康志愿者观察者间和观察者内变异性的评估

Automated measurement of volume flow in the ascending aorta using MR velocity maps: evaluation of inter- and intraobserver variability in healthy volunteers.

作者信息

van der Geest R J, Niezen R A, van der Wall E E, de Roos A, Reiber J H

机构信息

Department of Radiology, Leiden University Medical Center, The Netherlands.

出版信息

J Comput Assist Tomogr. 1998 Nov-Dec;22(6):904-11. doi: 10.1097/00004728-199811000-00013.

DOI:10.1097/00004728-199811000-00013
PMID:9843231
Abstract

PURPOSE

An automated contour detection algorithm was developed for the objective and reproducible quantitative analysis of velocity-encoded MR studies of the ascending aorta.

METHOD

The only user interaction required is the manual definition of a center point inside the cross-section of the aorta in one of the available images. The automated contour detection algorithm detects an initial model contour in this image and subsequently corrects for motion and deformation of the aortic cross-section in each of the acquired images over the complete cardiac cycle using dynamic programming techniques. Integrating the flow velocity values for each pixel within the detected contour results in an instantaneous flow value. Next, by integrating the instantaneous flow values for each acquired phase over the complete cardiac cycle, left ventricular stroke volume measurement could be obtained. The results of the automated method were compared with results derived from manually traced contours in MR studies from 11 healthy volunteers.

RESULTS

An excellent agreement in stroke volume measurements was observed: signed difference 0.61+/-1.15%. Inter- and intraobserver variabilities were <2% for both manual and automated image analysis methods. Manual tracing of contours required on the order of 10 min; the analysis time for automated contour detection was <6 s/study.

CONCLUSION

The present contour detection allows fast and reliable left ventricular stroke volume measurements from aortic flow studies using velocity-encoded MR studies in healthy volunteers. Further study is required to assess the accuracy and reproducibility of the algorithm in patients with aortic and aortic valve disease.

摘要

目的

开发一种自动轮廓检测算法,用于对升主动脉速度编码磁共振研究进行客观且可重复的定量分析。

方法

唯一需要用户交互的是在可用图像之一中手动定义主动脉横截面内的中心点。自动轮廓检测算法在该图像中检测初始模型轮廓,随后使用动态规划技术在整个心动周期的每个采集图像中校正主动脉横截面的运动和变形。对检测轮廓内每个像素的流速值进行积分可得到瞬时流量值。接下来,通过对整个心动周期内每个采集相位的瞬时流量值进行积分,可获得左心室搏出量测量值。将自动方法的结果与11名健康志愿者的磁共振研究中手动描绘轮廓得出的结果进行比较。

结果

在搏出量测量方面观察到极好的一致性:符号差为0.61±1.15%。手动和自动图像分析方法的观察者间和观察者内变异性均<2%。手动描绘轮廓大约需要10分钟;自动轮廓检测的分析时间<6秒/研究。

结论

目前的轮廓检测可通过对健康志愿者进行速度编码磁共振研究,从主动脉血流研究中快速可靠地测量左心室搏出量。需要进一步研究以评估该算法在主动脉和主动脉瓣疾病患者中的准确性和可重复性。

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