Port S C
University of Wisconsin Medical School, Laboratory of Nuclear Cardiology, Milwaukee Heart Institute.
Cardiol Clin. 1994 May;12(2):359-72.
First-pass RNA has been in use for more than 20 years for both the diagnosis and prognosis of coronary, congenital, valvular, and pulmonary heart disease. Recent advances in gamma-camera and computer technology have made first-pass RNA easier to acquire, more accurate, and faster to process. It stands out as the best technology available for the investigation of short-duration phenomena, including peak exercise, that affect the left and right ventricles. Perhaps most importantly, the introduction of the technetium-based myocardial perfusion imaging agent, sestamibi, has made it possible to combine all of the measurements of regional and global ventricular function and volume obtainable from first-pass data with high-resolution tomographic myocardial perfusion imaging, thus providing the most comprehensive noninvasive evaluation available of the patient with known or suspected coronary disease.
首次通过RNA用于诊断和预测冠心病、先天性心脏病、瓣膜性心脏病和肺心病已有20多年历史。γ相机和计算机技术的最新进展使首次通过RNA更容易获取、更准确且处理速度更快。它是用于研究影响左右心室的短期现象(包括运动峰值)的最佳可用技术。也许最重要的是,锝基心肌灌注显像剂司他比的引入,使得将首次通过数据中可获得的所有局部和整体心室功能及容积测量值与高分辨率断层心肌灌注显像相结合成为可能,从而为已知或疑似冠心病患者提供了最全面的无创评估。