Mesina Catalina T, Boellaard Ronald, Jongbloed Geurt, van der Vaart Aad W, Lammertsma Adriaan A
PET Center, VU University Medical Center, Amsterdam, The Netherlands.
Neuroimage. 2003 Jul;19(3):1170-9. doi: 10.1016/s1053-8119(03)00075-2.
Iterative reconstructions are increasingly used for clinical PET studies owing to the better noise properties compared with filtered backprojection (FBP). The purpose of the present study was to compare ordered subsets expectation maximization (OSEM) iterative reconstruction with FBP as input for statistical parametric mapping (SPM) analysis of PET activation studies. Two phantom studies were performed simulating both motor and cognitive tasks and acquiring data with both high and low statistics. In contrast to clinical studies, where no a priori information is known, phantom studies allow for an accurate and detailed comparison between different reconstruction techniques. The significance of "activations" during "tasks" was determined using SPM99 software. Using region of interest analysis of SPM results, it was found that the maximum and average t values within each hot spot of the phantom were higher for OSEM than for FBP. In addition, OSEM4 x 16 (4 iterations, 16 subsets) produced fewer false-positive voxels than FBP, OSEM1 x 16 and OSEM2 x 16. In conclusion, for PET activation studies use of OSEM4 x 16 seems to give the best tradeoff between signal detection and noise reduction.
与滤波反投影(FBP)相比,迭代重建具有更好的噪声特性,因此越来越多地用于临床PET研究。本研究的目的是比较有序子集期望最大化(OSEM)迭代重建与FBP作为PET激活研究统计参数映射(SPM)分析的输入。进行了两项体模研究,模拟运动和认知任务,并获取高统计量和低统计量的数据。与临床研究不同,临床研究中没有先验信息,而体模研究允许对不同重建技术进行准确而详细的比较。使用SPM99软件确定“任务”期间“激活”的显著性。通过对SPM结果进行感兴趣区域分析,发现体模每个热点内的最大和平均t值,OSEM比FBP更高。此外,OSEM4×16(4次迭代,16个子集)产生的假阳性体素比FBP、OSEM1×16和OSEM2×16更少。总之,对于PET激活研究,使用OSEM4×16似乎在信号检测和降噪之间提供了最佳平衡。
