Van Der Gucht Axel, Verger Antoine, Guedj Eric, Malandain Grégoire, Hossu Gabriela, Yagdigul Yalcin, Roch Véronique, Poussier Sylvain, Maillard Louis, Karcher Gilles, Marie Pierre-Yves
Department of Nuclear Medicine and Nancyclotep Experimental Imaging Platform, CHU Nancy, Allée du Morvan, Vandœuvre, 54000, Nancy, France.
INSERM, UMR 947, 54000, Nancy, France.
Ann Nucl Med. 2015 Dec;29(10):921-8. doi: 10.1007/s12149-015-1022-2. Epub 2015 Sep 1.
The impact of age is crucial and must be taken into account when applying a voxel-based quantitative analysis on brain images from [¹⁸F]-fluorodeoxyglucose Positron Emission Tomography (FDG-PET). This study aimed to determine whether age-related changes in brain FDG-PET images are more accurately assessed when the conventional statistical parametric mapping (SPM) normalization method is used with an adaptive template, obtained from analysed PET images using a Block-Matching (BM) algorithm to fit with the characteristics of these images.
Age-related changes in FDG-PET images were computed with linear models in 84 neurologically healthy subjects (35 women, 19 to 82-year-old), and compared between results provided by the SPM normalization algorithm applied on its dedicated conventional template or on the adaptive BM template. A threshold P value of 0.05 was used together with a family-wise error correction.
The age-related changes in FDG-PET images were much more apparent when computed with the adaptive template than with the conventional template as evidenced by: (1) stronger correlation coefficients with age for the overall frontal and temporal uptake values (respective R² values of 0.20 and 0.07) and (2) larger extents of involved areas (13 and 5% of whole brain template volume, respectively), leading to reveal several age-dependent areas (especially in dorsolateral prefrontal, inferior temporal/fusiform and primary somatosensory cortices).
Age-related changes in brain FDG uptake may be more accurately determined when applying the SPM method of voxel-based quantitative analysis on a template that best fits the characteristics of the analysed TEP images.
年龄的影响至关重要,在对[¹⁸F]-氟脱氧葡萄糖正电子发射断层扫描(FDG-PET)的脑图像进行基于体素的定量分析时必须予以考虑。本研究旨在确定,当使用传统统计参数映射(SPM)归一化方法并结合自适应模板时,是否能更准确地评估脑FDG-PET图像中与年龄相关的变化。该自适应模板是通过块匹配(BM)算法从分析的PET图像中获得,以适应这些图像的特征。
使用线性模型计算84名神经功能正常的受试者(35名女性,年龄在19至82岁之间)的FDG-PET图像中与年龄相关的变化,并比较将SPM归一化算法应用于其专用传统模板或自适应BM模板所得到的结果。使用0.05的阈值P值以及家族性错误校正。
与传统模板相比,使用自适应模板计算时,FDG-PET图像中与年龄相关的变化更为明显,这体现在:(1)额叶和颞叶总体摄取值与年龄的相关系数更强(分别为R²值0.20和0.07);(2)涉及区域范围更大(分别占全脑模板体积的13%和5%),从而揭示出几个与年龄相关的区域(特别是在背外侧前额叶、颞下回/梭状回和初级体感皮层)。
在对最适合所分析的TEP图像特征的模板应用基于体素的定量分析的SPM方法时,可能更准确地确定脑FDG摄取中与年龄相关的变化。
