Tiss Amal, Chemli Yanis, Guehl Nicolas, Marin Thibault, Johnson Keith, El Fakhri Georges, Ouyang Jinsong
Gordon Center for Medical Imaging, Department of Radiology, Massachusetts General Hospital, Boston, MA 02114 USA.
Department of Radiology and Biomedical Imaging, Yale University, New Haven, CT 06520 USA.
IEEE Trans Radiat Plasma Med Sci. 2024 Nov;8(8):950-958. doi: 10.1109/trpms.2024.3432322. Epub 2024 Jul 22.
Motion is unavoidable in dynamic [F]-MK6240 Positron Emission Tomography (PET) imaging, especially in Alzheimer's disease (AD) research requiring long scan duration. To understand how motion correction affects quantitative analysis, we investigated two approaches: II-MC, which corrects for both inter-frame and intra-frame motion, and IO-MC, which only corrects for inter-frame motion. These methods were applied to 83 scans from 34 subjects, and we calculated distribution volume ratios (DVR) using the multilinear reference tissue model with two parameters (MRTM2) in tau-rich brain regions. Most of the studies yielded similar DVR results for both II-MC and IO-MC. However, in one scan of an AD subject, the inferior temporal region showed 14% higher DVR with II-MC compared to IO-MC. This difference was reasonable given the AD diagnosis, although similar results were not observed in other regions. Although discrepancies between IO-MC and II-MC results were rare, they underscore the importance of incorporating intra-frame motion correction for more accurate and dependable PET quantitation, particularly in the context of dynamic imaging. These findings suggest that while the overall impact of intra-frame motion correction may be subtle, it can improve the reliability of longitudinal PET data, ultimately enhancing our understanding of tau protein distribution in AD pathology.
在动态[F]-MK6240正电子发射断层扫描(PET)成像中,运动是不可避免的,尤其是在需要长时间扫描的阿尔茨海默病(AD)研究中。为了了解运动校正如何影响定量分析,我们研究了两种方法:帧间和帧内运动都校正的II-MC,以及仅校正帧间运动的IO-MC。这些方法应用于34名受试者的83次扫描,我们在富含tau蛋白的脑区使用双参数多线性参考组织模型(MRTM2)计算分布容积比(DVR)。大多数研究中,II-MC和IO-MC的DVR结果相似。然而,在一名AD受试者的一次扫描中,颞下区域的II-MC DVR比IO-MC高14%。考虑到AD诊断,这种差异是合理的,尽管在其他区域未观察到类似结果。虽然IO-MC和II-MC结果之间的差异很少见,但它们强调了纳入帧内运动校正对于更准确可靠的PET定量的重要性,特别是在动态成像的背景下。这些发现表明,虽然帧内运动校正的总体影响可能很细微,但它可以提高纵向PET数据的可靠性,最终增强我们对AD病理学中tau蛋白分布的理解。