Weinstein H, King M A, Reinhardt C P, McSherry B A, Leppo J A
Department of Nuclear Medicine, University of Massachusetts Medical Center, Worcester 01655, USA.
J Nucl Cardiol. 1994 Jan-Feb;1(1):39-51. doi: 10.1007/BF02940010.
Simultaneous dual-radionuclide technetium 99m/thallium 201 scintigraphy can potentially produce perfectly aligned stress and rest images in less time than conventional protocols. However, interradionuclide crossover limits diagnostic accuracy. Accordingly, we evaluated 99mTc and 201Tl crossover in line and heart phantoms.
99mTc crossover in the 201Tl imaging window constituted as much as one half of the counts in the 99mTc window, varied significantly with attenuation, and was spatially incoherent. 201Tl crossover was relatively small, less variable, and spatially similar to the primary image. Based on these findings, the following simultaneous dual-radionuclide 99mTc/201Tl method was developed, and validated in line and heart phantoms. The 99mTc source is imaged first into dual 201Tl/99mTc windows, followed by 201Tl administration and dual-radionuclide imaging. The single-radionuclide 99mTc image in the 201Tl window is count-normalized for acquisition time and then subtracted from the dual-radionuclide 201Tl image to specifically correct for 99mTc crossover. Image quality of the corrected dual-radionuclide 201Tl images approached their single-radionuclide counterparts. Correction for 201Tl crossover was relatively unimportant.
Simultaneous dual-radionuclide 99mTc/201Tl myocardial scintigraphy is feasible with 99mTc crossover correction specific to each acquisition. The proposed dual-radionuclide 99mTc/201Tl method and the principles on which it is based can be applied to a broad range of dual-radionuclide pairs.
与传统方案相比,同时进行的双放射性核素锝99m/铊201闪烁扫描术有可能在更短的时间内生成完美对齐的负荷和静息图像。然而,放射性核素间的交叉会限制诊断准确性。因此,我们在线体模和心脏体模中评估了锝99m和铊201的交叉情况。
在铊201成像窗口中,锝99m的交叉计数高达锝99m窗口计数的一半,随衰减变化显著,且在空间上不连贯。铊201的交叉相对较小,变化较小,且在空间上与原始图像相似。基于这些发现,开发了以下同时进行的双放射性核素锝99m/铊201方法,并在线体模和心脏体模中进行了验证。首先将锝99m源成像到双铊201/锝99m窗口中,然后注入铊201并进行双放射性核素成像。将铊201窗口中的单放射性核素锝99m图像按采集时间进行计数归一化,然后从双放射性核素铊201图像中减去,以专门校正锝99m的交叉。校正后的双放射性核素铊201图像的质量接近其单放射性核素对应图像。对铊201交叉的校正相对不太重要。
同时进行双放射性核素锝99m/铊201心肌闪烁扫描术是可行的,对每次采集进行特定的锝99m交叉校正。所提出的双放射性核素锝99m/铊201方法及其所基于的原理可应用于广泛的双放射性核素对。
