核医学与正电子发射断层显像（PET）中肿瘤可检测性的限度

Limits of Tumor Detectability in Nuclear Medicine and PET.

作者信息

Erdi Yusuf Emre

机构信息

Memorial Sloan Kettering Cancer Center, Department of Medical Physics, New York, USA.

出版信息

Mol Imaging Radionucl Ther. 2012 Apr;21(1):23-8. doi: 10.4274/Mirt.138. Epub 2012 Apr 1.

DOI:10.4274/Mirt.138

PMID:23486256

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3590963/

Abstract

OBJECTIVE

Nuclear medicine is becoming increasingly important in the early detection of malignancy. The advantage of nuclear medicine over other imaging modalities is the high sensitivity of the gamma camera. Nuclear medicine counting equipment has the capability of detecting levels of radioactivity which exceed background levels by as little as 2.4 to 1. This translates to only a few hundred counts per minute on a regular gamma camera or as few as 3 counts per minute when using coincidence detection on a positron emission tomography (PET) camera.

MATERIAL AND METHODS

We have experimentally measured the limits of detectability using a set of hollow spheres in a Jaszczak phantom at various tumor-to-background ratios. Imaging modalities for this work were (1) planar, (2) SPECT, (3) PET, and (4) planar camera with coincidence detection capability (MCD).

RESULTS

When there is no background (infinite contrast) activity present, the detectability of tumors is similar for PET and planar imaging. With the presence of the background activity , PET can detect objects in an order of magnitude smaller in size than that can be seen by conventional planar imaging especially in the typical clinical low (3:1) T/B ratios. The detection capability of the MCD camera lies between a conventional nuclear medicine (planar / SPECT) scans and the detection capability of a dedicated PET scanner.

CONCLUSION

Among nuclear medicine's armamentarium, PET is the closest modality to CT or MR imaging in terms of limits of detection. Modern clinical PET scanners have a resolution limit of 4 mm, corresponding to the detection of tumors with a volume of 0.2 ml (7 mm diameter) in 5:1 T/B ratio. It is also possible to obtain better resolution limits with dedicated brain and animal scanners. The future holds promise in development of new detector materials, improved camera design, and new reconstruction algorithms which will improve sensitivity, resolution, contrast, and thereby further diminish the limits of tumor detectability.

CONFLICT OF INTEREST

None declared.

摘要

目的

核医学在恶性肿瘤的早期检测中变得越来越重要。核医学相对于其他成像方式的优势在于γ相机的高灵敏度。核医学计数设备能够检测出仅比背景水平高2.4至1的放射性水平。这在常规γ相机上相当于每分钟只有几百次计数，而在正电子发射断层扫描（PET）相机上使用符合检测时，每分钟低至3次计数。

材料与方法

我们使用一组在Jaszczak体模中的空心球体，在不同肿瘤与背景比的情况下，通过实验测量了可检测性的极限。这项工作所使用的成像方式有：（1）平面成像；（2）单光子发射计算机断层扫描（SPECT）；（3）PET；（4）具有符合检测能力的平面相机（MCD）。

结果

当不存在背景（无限对比度）活性时，PET和平面成像对肿瘤的可检测性相似。在有背景活性存在的情况下，PET能够检测到尺寸比传统平面成像所见小一个数量级的物体，特别是在典型的临床低（3:1）肿瘤与背景比的情况下。MCD相机的检测能力介于传统核医学（平面/SPECT）扫描和专用PET扫描仪的检测能力之间。

结论

在核医学的设备中，就检测极限而言，PET是最接近CT或磁共振成像（MR）的方式。现代临床PET扫描仪的分辨率极限为4毫米，对应于在5:1肿瘤与背景比的情况下检测体积为0.2毫升（直径7毫米）的肿瘤。使用专用的脑部和动物扫描仪也有可能获得更好的分辨率极限。未来有望开发新的探测器材料、改进相机设计以及新的重建算法，这将提高灵敏度、分辨率、对比度，从而进一步降低肿瘤可检测性的极限。

利益冲突

未声明。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0605/3590963/6154585b2208/MIRT-21-23-g7.jpg

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核医学与正电子发射断层显像（PET）中肿瘤可检测性的限度

Limits of Tumor Detectability in Nuclear Medicine and PET.

作者信息

机构信息

出版信息

OBJECTIVE

MATERIAL AND METHODS

RESULTS

CONCLUSION

CONFLICT OF INTEREST

目的

材料与方法

结果

结论

利益冲突

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