利用小鼠 FDG-PET 研究图像衍生 SUV 和改良 SUV。
Study of an image-derived SUV and a modified SUV using mouse FDG-PET.
机构信息
Department of Electronic Information Engineering, the Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong.
出版信息
Nucl Med Biol. 2011 Apr;38(3):353-62. doi: 10.1016/j.nucmedbio.2010.10.002. Epub 2010 Dec 3.
INTRODUCTION
Standard uptake value (SUV) is calculated without consideration of the differences in plasma 2-deoxy-2-[18F]fluoro-D-glucose (FDG) clearance. Its variability can be affected by changes of the amount of excreted FDG by renal function. Moreover, the estimation of SUV is quite sensitive to errors in the measurements of body weight and injected dose. This study aims to develop an image-based method to obtain an image-derived SUV (iSUV) and a modified SUV (mSUV) to overcome these problems.
METHODS
Thirty-one tumor-planted SCID mice were scanned in micro-positron emission tomography (PET) at ∼60 min post FDG injection and then scanned in micro-computed tomographic (CT). Using image-based method, the body weight and injected dose were derived from the microPET/CT images to calculate iSUV. The volumes and the total activities of FDG within the bladder and the whole-body were also obtained to calculate mSUV. For the selected targets, the iSUVs and mSUVs were compared against their corresponding SUVs.
RESULTS
Compared with SUV factor (injected dose/body weight), iSUV factor had an average percentage error of -0.7%. The linear regressions between SUV and iSUV had a slope of 0.99 with correlation coefficient of 0.95. Compared with SUV and iSUV, coefficient of variation of mSUV decreased while the tumor-to-background separation of mSUV increased.
CONCLUSIONS
Using this image-based method, the iSUV can replace SUV when the actual measurements were missing or unreliable. The mSUV can reduce the inter-subject variability and enhance the tumor-to-background separation in mouse FDG-PET studies.
简介
标准摄取值(SUV)的计算未考虑血浆 2-脱氧-2-[18F]氟代-D-葡萄糖(FDG)清除率的差异。其可变性可能受到肾功能排泄 FDG 量变化的影响。此外,SUV 的估计对体重和注射剂量测量中的误差非常敏感。本研究旨在开发一种基于图像的方法来获得图像衍生的 SUV(iSUV)和改良的 SUV(mSUV)以克服这些问题。
方法
31 只种植肿瘤的 SCID 小鼠在 FDG 注射后约 60 分钟进行微正电子发射断层扫描(PET)扫描,然后进行微计算机断层扫描(CT)扫描。使用基于图像的方法,从 microPET/CT 图像中得出体重和注射剂量,以计算 iSUV。还获得了膀胱内和全身的 FDG 体积和总活性,以计算 mSUV。对于选定的目标,将 iSUV 和 mSUV 与相应的 SUV 进行比较。
结果
与 SUV 因子(注射剂量/体重)相比,iSUV 因子的平均百分比误差为-0.7%。SUV 与 iSUV 之间的线性回归斜率为 0.99,相关系数为 0.95。与 SUV 和 iSUV 相比,mSUV 的变异系数降低,而 mSUV 的肿瘤与背景的分离度增加。
结论
使用这种基于图像的方法,当实际测量值缺失或不可靠时,可以用 iSUV 代替 SUV。mSUV 可以减少小鼠 FDG-PET 研究中的个体间变异性并增强肿瘤与背景的分离度。
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