11C-PIB PET和18F-FDG PET用于检测阿尔茨海默病的视觉评估与定量评估
Visual assessment versus quantitative assessment of 11C-PIB PET and 18F-FDG PET for detection of Alzheimer's disease.
作者信息
Ng Steven, Villemagne Victor L, Berlangieri Sam, Lee Sze-Ting, Cherk Martin, Gong Sylvia J, Ackermann Uwe, Saunder Tim, Tochon-Danguy Henri, Jones Gareth, Smith Clare, O'Keefe Graeme, Masters Colin L, Rowe Christopher C
机构信息
Department of Nuclear Medicine, Centre for PET, Austin Health, Heidelberg, Victoria, Australia.
出版信息
J Nucl Med. 2007 Apr;48(4):547-52. doi: 10.2967/jnumed.106.037762.
UNLABELLED
Amyloid-beta (Abeta) imaging with N-methyl-(11)C-2-(4'-methylamino-phenyl)-6-hydroxy-benzothiazole ((11)C-6-OH-BTA-1; also known as (11)C-PIB) shows a robust increase in cortical binding in Alzheimer's disease (AD). The aim of this study was to explore the clinical potential of Abeta imaging for the diagnosis of AD by comparison of the accuracy of visual reading of (11)C-PIB images with quantitative analysis and (18)F-FDG.
METHODS
Fifteen AD patients (age, 71.1 +/- 11.3 y [mean +/- SD]; mini-mental state examination [MMSE], 18.9 +/- 9.3 [mean +/- SD]) and 25 healthy control (HC) subjects (age, 71.9 +/- 6.82 y; MMSE >or= 28) underwent 90-min dynamic (11)C-PIB PET and 20-min static (18)F-FDG PET. (11)C-PIB images, generated from data acquired between 40 and 70 min after injection, and (18)F-FDG images were rated separately by 2 readers as normal, possible AD, or probable AD. Quantitative analyses used the distribution volume ratio (DVR) of frontal cortex, parietotemporal cortex, posterior cingulate, and caudate nucleus for (11)C-PIB and standardized uptake value ratio (SUVR) of parietotemporal cortex and posterior cingulate for (18)F-FDG, using cerebellar cortex as the reference region. Receiver-operating-characteristic (ROC) analysis was performed to compare the accuracy of quantitative measures. To determine the effect of age on diagnostic accuracy, the median age of the AD subjects (74 y) was chosen to separate the cohort into younger (64.4 +/- 5.8 y) and older (78.6 +/- 4.1 y) groups.
RESULTS
Visual agreement between readers was excellent for (11)C-PIB (kappa = 0.90) and good for (18)F-FDG (kappa = 0.56). (11)C-PIB was more accurate than (18)F-FDG both on visual reading (accuracy, 90% vs. 70%, P = 0.05) and ROC analysis (95% vs. 83%, P = 0.02). Accuracy declined more with (18)F-FDG than with (11)C-PIB in the older group.
CONCLUSION
Visual analysis of (11)C-PIB images appears more accurate than visual reading of (18)F-FDG for identification of AD and has accuracy similar to quantitative analysis of a 90-min dynamic scan. The accuracy of (11)C-PIB PET is limited by cortical binding in some healthy elderly subjects, consistent with postmortem studies of cerebral Abeta. Longitudinal follow-up is required to determine if this represents detection of preclinical AD.
未标注
使用N-甲基-(11)C-2-(4'-甲氨基苯基)-6-羟基苯并噻唑((11)C-6-OH-BTA-1;也称为(11)C-PIB)进行淀粉样β蛋白(Aβ)成像显示,阿尔茨海默病(AD)患者皮质结合显著增加。本研究旨在通过比较(11)C-PIB图像视觉解读与定量分析以及(18)F-FDG的准确性,探索Aβ成像在AD诊断中的临床潜力。
方法
15例AD患者(年龄,71.1±11.3岁[均值±标准差];简易精神状态检查表[MMSE],18.9±9.3[均值±标准差])和25名健康对照(HC)受试者(年龄,71.9±6.82岁;MMSE≥28)接受了90分钟的动态(11)C-PIB正电子发射断层显像(PET)和20分钟的静态(18)F-FDG PET。由注射后40至70分钟采集的数据生成的(11)C-PIB图像和(18)F-FDG图像分别由2名阅片者评定为正常、可能为AD或很可能为AD。定量分析使用额叶皮质、顶颞叶皮质、后扣带回和尾状核的分布容积比(DVR)来分析(11)C-PIB,并使用顶颞叶皮质和后扣带回的标准化摄取值比(SUVR)来分析(18)F-FDG,以小脑皮质作为参考区域。进行受试者操作特征(ROC)分析以比较定量测量的准确性。为确定年龄对诊断准确性的影响,选择AD受试者的年龄中位数(74岁)将队列分为较年轻组(64.4±5.8岁)和较年长组(78.6±4.1岁)。
结果
阅片者之间对于(11)C-PIB的视觉一致性极佳(kappa = 0.90),对于(18)F-FDG的视觉一致性良好(kappa = 0.56)。在视觉解读方面(11)C-PIB比(18)F-FDG更准确(准确性,90%对70%,P = 0.05),在ROC分析中也是如此(95%对83%,P = 0.02)。在较年长组中,(18)F-FDG的准确性下降幅度比(11)C-PIB更大。
结论
对于AD的识别,(11)C-PIB图像的视觉分析似乎比(18)F-FDG的视觉解读更准确,并且其准确性与90分钟动态扫描的定量分析相似。(11)C-PIB PET的准确性在一些健康老年受试者中受皮质结合的限制,这与脑Aβ的尸检研究一致。需要进行纵向随访以确定这是否代表临床前AD的检测。
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