运动冻结（18）F-FDG 心脏 PET。

Motion frozen (18)F-FDG cardiac PET.

机构信息

Department of Imaging and Medicine, Cedars-Sinai Medical Center, Los Angeles, CA, USA.

出版信息

J Nucl Cardiol. 2011 Apr;18(2):259-66. doi: 10.1007/s12350-010-9322-3. Epub 2010 Dec 16.

DOI:10.1007/s12350-010-9322-3

PMID:21161704

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3069314/

Abstract

BACKGROUND

PET reconstruction incorporating spatially variant 3D Point Spread Function (PSF) improves contrast and image resolution. "Cardiac Motion Frozen" (CMF) processing eliminates the influence of cardiac motion in static summed images. We have evaluated the combined use of CMF- and PSF-based reconstruction for high-resolution cardiac PET.

METHODS

Static and 16-bin ECG-gated images of 20 patients referred for (18)F-FDG myocardial viability scans were obtained on a Siemens Biograph-64. CMF was applied to the gated images reconstructed with PSF. Myocardium to blood contrast, maximum left ventricle (LV) counts to defect contrast, contrast-to-noise (CNR) and wall thickness with standard reconstruction (2D-AWOSEM), PSF, ED-gated PSF, and CMF-PSF were compared.

RESULTS

The measured wall thickness was 18.9 ± 5.2 mm for 2D-AWOSEM, 16.6 ± 4.5 mm for PSF, and 13.8 ± 3.9 mm for CMF-PSF reconstructed images (all P < .05). The CMF-PSF myocardium to blood and maximum LV counts to defect contrasts (5.7 ± 2.7, 10.0 ± 5.7) were higher than for 2D-AWOSEM (3.5 ± 1.4, 6.5 ± 3.1) and for PSF (3.9 ± 1.7, 7.7 ± 3.7) (CMF vs all other, P < .05). The CNR for CMF-PSF (26.3 ± 17.5) was comparable to PSF (29.1 ± 18.3), but higher than for ED-gated dataset (13.7 ± 8.8, P < .05).

CONCLUSION

Combined CMF-PSF reconstruction increased myocardium to blood contrast, maximum LV counts to defect contrast and maintained equivalent noise when compared to static summed 2D-AWOSEM and PSF reconstruction.

摘要

背景

结合空间变化三维点扩散函数（PSF）的 PET 重建可提高对比度和图像分辨率。“心脏运动冻结”（CMF）处理可消除静态总和图像中心脏运动的影响。我们评估了 CMF 和 PSF 联合重建在高分辨率心脏 PET 中的应用。

方法

在西门子 Biograph-64 上对 20 例因（18）F-FDG 心肌存活扫描而转介的患者进行静态和 16 -bin 心电图门控图像采集。CMF 应用于 PSF 重建的门控图像。比较了标准重建（2D-AWOSEM）、PSF、ED 门控 PSF 和 CMF-PSF 下的心肌与血液对比、左心室（LV）最大计数与缺陷对比、对比噪声比（CNR）和壁厚度。

结果

2D-AWOSEM、PSF 和 CMF-PSF 重建图像的壁厚度分别为 18.9 ± 5.2mm、16.6 ± 4.5mm 和 13.8 ± 3.9mm（均 P <.05）。CMF-PSF 的心肌与血液和左心室最大计数与缺陷对比（5.7 ± 2.7、10.0 ± 5.7）高于 2D-AWOSEM（3.5 ± 1.4、6.5 ± 3.1）和 PSF（3.9 ± 1.7、7.7 ± 3.7）（CMF 与其他所有，P <.05）。CMF-PSF 的 CNR（26.3 ± 17.5）与 PSF（29.1 ± 18.3）相当，但高于 ED 门控数据集（13.7 ± 8.8，P <.05）。

结论

与静态总和 2D-AWOSEM 和 PSF 重建相比，CMF-PSF 联合重建可提高心肌与血液的对比度、左心室最大计数与缺陷对比，并保持等效噪声。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3bc9/3069314/1c6755277a09/12350_2010_9322_Fig1_HTML.jpg

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运动冻结（18）F-FDG 心脏 PET。

Motion frozen (18)F-FDG cardiac PET.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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