使用专用BGO正电子发射断层扫描仪对二维与三维全身正电子发射断层图像质量进行临床评估。

Clinical evaluation of 2D versus 3D whole-body PET image quality using a dedicated BGO PET scanner.

作者信息

Visvikis D, Griffiths D, Costa D C, Bomanji J, Ell P J

机构信息

U650 INSERM, Laboratoire de Traitement de l'Information Medicale (LaTIM), CHU Morvan, Brest, 29609, France.

出版信息

Eur J Nucl Med Mol Imaging. 2005 Sep;32(9):1050-6. doi: 10.1007/s00259-005-1809-9. Epub 2005 Apr 22.

DOI:10.1007/s00259-005-1809-9

PMID:15846487

Abstract

PURPOSE

Three-dimensional positron emission tomography (3D PET) results in higher system sensitivity, with an associated increase in the detection of scatter and random coincidences. The objective of this work was to compare, from a clinical perspective, 3D and two-dimensional (2D) acquisitions in terms of whole-body (WB) PET image quality with a dedicated BGO PET system.

METHODS

2D and 3D WB emission acquisitions were carried out in 70 patients. Variable acquisition parameters in terms of time of emission acquisition per axial field of view (aFOV) and slice overlap between sequential aFOVs were used during the 3D acquisitions. 3D and 2D images were reconstructed using FORE+WLS and OSEM respectively. Scatter correction was performed by convolution subtraction and a model-based scatter correction in 2D and 3D respectively. All WB images were attenuation corrected using segmented transmission scans. Images were blindly assessed by three observers for the presence of artefacts, confidence in lesion detection and overall image quality using a scoring system.

RESULTS

Statistically significant differences between 2D and 3D image quality were only obtained for 3D emission acquisitions of 3 min. No statistically significant differences were observed for image artefacts or lesion detectability scores. Image quality correlated significantly with patient weight for both modes of operation. Finally, no differences were seen in image artefact scores for the different axial slice overlaps considered, suggesting the use of five slice overlaps in 3D WB acquisitions.

CONCLUSION

3D WB imaging using a dedicated BGO-based PET scanner offers similar image quality to that obtained in 2D considering similar overall times of acquisitions.

摘要

目的

三维正电子发射断层扫描（3D PET）可提高系统灵敏度，同时散射和随机符合事件的检测也会相应增加。本研究的目的是从临床角度比较使用专用BGO PET系统进行全身（WB）PET成像时，3D和二维（2D）采集在图像质量方面的差异。

方法

对70例患者进行了2D和3D WB发射采集。在3D采集过程中，使用了不同的采集参数，包括每个轴向视野（aFOV）的发射采集时间以及连续aFOV之间的切片重叠。3D和2D图像分别使用FORE+WLS和OSEM重建。2D和3D分别通过卷积减法和基于模型的散射校正进行散射校正。所有WB图像均使用分段透射扫描进行衰减校正。三位观察者使用评分系统对图像进行盲法评估，以确定是否存在伪影、对病变检测的信心以及整体图像质量。

结果

仅在3分钟的3D发射采集中，2D和3D图像质量存在统计学显著差异。在图像伪影或病变可检测性评分方面未观察到统计学显著差异。两种操作模式下，图像质量均与患者体重显著相关。最后，对于所考虑的不同轴向切片重叠，图像伪影评分没有差异，这表明在3D WB采集中可使用五个切片重叠。

结论

使用基于BGO的专用PET扫描仪进行3D WB成像，在采集总时间相似的情况下，其图像质量与2D成像相似。

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使用专用BGO正电子发射断层扫描仪对二维与三维全身正电子发射断层图像质量进行临床评估。

Clinical evaluation of 2D versus 3D whole-body PET image quality using a dedicated BGO PET scanner.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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