心脏PET/CT和SPECT/CT中衰减校正伪影的来源。

Sources of attenuation-correction artefacts in cardiac PET/CT and SPECT/CT.

作者信息

McQuaid Sarah J, Hutton Brian F

机构信息

Institute of Nuclear Medicine, University College London, London, NW1 2BU, UK.

出版信息

Eur J Nucl Med Mol Imaging. 2008 Jun;35(6):1117-23. doi: 10.1007/s00259-008-0718-0. Epub 2008 Jan 25.

DOI:10.1007/s00259-008-0718-0

PMID:18219483

Abstract

PURPOSE

Respiratory motion during myocardial perfusion imaging can cause artefacts in both positron emission tomography (PET) and single-photon emission computed tomography (SPECT) images when mismatches between emission and transmission datasets arise. In this study, artefacts from different breathing motions were quantified in both modalities to assess key factors in attenuation-correction accuracy.

METHODS

Activity maps were generated using the NURBS-based cardiac-torso phantom for different respiratory cycles, which were projected, attenuation-corrected and reconstructed to form PET and SPECT images. Attenuation-correction was performed with maps at mismatched respiratory phases to observe the effect on the left-ventricular myocardium. Myocardial non-uniformity was assessed in terms of the standard deviation in scores obtained from the 17-segment model and changes in uniformity were compared for each mismatch and modality.

RESULTS

Certain types of mismatch led to artefacts and corresponding increases in the myocardial non-uniformity. For each mismatch in PET, the increases in non-uniformity relative to an artefact-free image were as follows: (a) cardiac translation mismatch, 84% +/- 11%; (b) liver mismatch, 59% +/- 10%, (c) lung mismatch from diaphragm contraction, 28% +/- 8%; and (d) lung mismatch from chest-wall motion, 6% +/- 7%. The corresponding factors for SPECT were (a) 61% +/- 8%, (b) 34% +/- 8%, (c) -2% +/- 7)% and (d) -4% +/- 6%.

CONCLUSIONS

Attenuation-correction artefacts were seen in PET and SPECT images, with PET being more severely affected. The most severe artefacts were produced from mismatches in cardiac and liver position, whereas lung mismatches were less critical. Both cardiac and liver positions must, therefore, be correctly matched during attenuation correction.

摘要

目的

在心肌灌注成像过程中，当发射数据集与透射数据集之间出现不匹配时，呼吸运动会在正电子发射断层扫描（PET）和单光子发射计算机断层扫描（SPECT）图像中产生伪影。在本研究中，对两种模态下不同呼吸运动产生的伪影进行了量化，以评估衰减校正准确性的关键因素。

方法

使用基于非均匀有理B样条（NURBS）的心脏躯干体模针对不同呼吸周期生成活动图，将其投影、进行衰减校正并重建以形成PET和SPECT图像。在呼吸相位不匹配的情况下使用活动图进行衰减校正，以观察对左心室心肌的影响。根据从17节段模型获得的分数的标准差评估心肌不均匀性，并比较每种不匹配情况和模态下均匀性的变化。

结果

某些类型的不匹配会导致伪影以及心肌不均匀性相应增加。对于PET中的每种不匹配情况，相对于无伪影图像，不均匀性的增加如下：（a）心脏平移不匹配，84%±11%；（b）肝脏不匹配，59%±10%；（c）膈肌收缩导致肺部不匹配，28%±8%；（d）胸壁运动导致肺部不匹配，6%±7%。SPECT的相应因素为：（a）61%±8%；（b）34%±8%；（c）-2%±7%；（d）-4%±6%。

结论

PET和SPECT图像中均出现了衰减校正伪影，PET受影响更严重。最严重的伪影是由心脏和肝脏位置不匹配产生的，而肺部不匹配的影响较小。因此，在衰减校正过程中，心脏和肝脏的位置都必须正确匹配。

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心脏PET/CT和SPECT/CT中衰减校正伪影的来源。

Sources of attenuation-correction artefacts in cardiac PET/CT and SPECT/CT.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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