Wagatsuma Kei, Ishibashi Kenji, Kameyama Masashi, Sakata Muneyuki, Miwa Kenta, Kamitaka Yuto, Ishii Kenji
School of Allied Health Sciences, Kitasato University, 1-15-1 Kitazato, Minami-ku, Sagamihara, Kanagawa, 252-0373, Japan.
Research Team for Neuroimaging, Tokyo Metropolitan Institute of Gerontology, 35-2, Sakae-cho, Itabashi-ku, Tokyo, 173-0015, Japan.
Radiol Phys Technol. 2022 Jun;15(2):116-124. doi: 10.1007/s12194-022-00653-7. Epub 2022 Mar 3.
Shortening the amount of time required to acquire amyloid positron emission tomography (PET) brain images while maintaining the accuracy of quantitative evaluation would help to overcome motion artifacts associated with Alzheimer's disease patients. The present study aimed to validate the quantitative accuracy of [F]florbetapir ([F]FBP) imaging over a shorter acquisition duration. Forty participants were injected with [F]FBP, and PET images were acquired for 50-55, 50-60, and 50-70 min after injection. Three physicians visually assessed the reprocessed [F]FBP images using a binary scale to classify them as amyloid β (Aβ) negative or positive. A mean composite standard uptake value ratio (cSUVR) > 1.075 was defined as Aβ-positive based on receiver operating characteristic curves. Inter-reader and inter-acquisition duration agreements with visual assessment were evaluated using Cohen's kappa (κ). Binary visual discrimination of 102 for the 120 [F]FBP images, was consistent among the three readers. Sixteen, sixteen, and fourteen of the 40 [F]FBP images acquired for 50-55, 50-60, and 50-70 min after injection, respectively, were deemed Aβ-positive by visual assessment. The inter-rater agreement was high, and the inter-acquisition duration agreement was almost perfect. The cSUVR did not change significantly among the acquisition durations, and the acquisition duration did not affect the outcome of discrimination based on the cSUVR cutoff. A shorter acquisition duration changed the visual assessment outcomes. Stable quantitative values were derived from [F]FBP images acquired within 5 min. cSUVR helped to improve the performance and confidence in the outcomes of visual assessment.
在保持定量评估准确性的同时,缩短获取淀粉样蛋白正电子发射断层扫描(PET)脑图像所需的时间,将有助于克服与阿尔茨海默病患者相关的运动伪影。本研究旨在验证在较短采集时间内[F]氟代贝他吡([F]FBP)成像的定量准确性。40名参与者注射了[F]FBP,并在注射后50 - 55分钟、50 - 60分钟和50 - 70分钟采集PET图像。三名医生使用二元量表对重新处理后的[F]FBP图像进行视觉评估,将其分类为淀粉样β(Aβ)阴性或阳性。基于受试者工作特征曲线,平均复合标准摄取值比率(cSUVR)> 1.075被定义为Aβ阳性。使用科恩kappa(κ)系数评估读者间以及采集时间间隔与视觉评估之间的一致性。在120张[F]FBP图像中,102张的二元视觉判别在三名读者之间是一致的。注射后50 - 55分钟、50 - 60分钟和50 - 70分钟采集的40张[F]FBP图像中,分别有16张、16张和14张经视觉评估被判定为Aβ阳性。评分者间一致性较高,采集时间间隔之间的一致性几乎完美。在不同采集时间内,cSUVR没有显著变化,并且采集时间不影响基于cSUVR临界值的判别结果。较短的采集时间改变了视觉评估结果。从5分钟内采集的[F]FBP图像中获得了稳定的定量值。cSUVR有助于提高视觉评估结果的性能和可信度。
