基于LSO的临床正电子发射断层显像中天然放射性的单计数、随机计数和真计数研究。

Investigation of single, random, and true counts from natural radioactivity in LSO-based clinical PET.

作者信息

Yamamoto Seiichi, Horii Hitoshi, Hurutani Mitsuru, Matsumoto Keiichi, Senda Michio

机构信息

Department of Electrical Engineering, Kobe City College of Technology, Japan.

出版信息

Ann Nucl Med. 2005 Apr;19(2):109-14. doi: 10.1007/BF03027389.

DOI:10.1007/BF03027389

PMID:15909490

Abstract

OBJECTIVE

Lutetium oxyorthosilicate (LSO) contains natural radioactivity that emits beta particles and three gamma photons simultaneously. These beta particles and gamma photons increase the single and random rates in a positron emission tomography (PET) system while a beta particle and gamma photon produced in the same decay of Lu-176 and detected by another detector can be beta-gamma coincidence true events. The purpose of this work is to measure the single, random, and true count rates due to the natural radioactivity in LSO and determine the optimum lower energy threshold level for an energy window in an LSO-based clinical PET.

METHODS

First, we measured the energy spectra of these beta particles and gamma photons in LSO using a single crystal to obtain the basic data. Then, we measured single, random, and true count rates of an LSO-based clinical PET from the natural radioactivity as a function of the lower energy threshold.

RESULTS

In the PET, single and random count rates due to the natural background activity were gradually decreased as the lower energy threshold level increased. The true count rates due to the beta-gamma coincidence were more than 10 kcps below a lower energy threshold of 250 keV. However, these true count rates due to the natural radioactivity in LSO can be decreased to less than 1 kcps at a lower energy threshold level set at more than 350 keV.

CONCLUSION

With these considerations, in an LSO-based clinical PET, a lower energy threshold level set at above 350 keV is recommended.

摘要

目的

正硅酸镥（LSO）含有天然放射性，会同时发射β粒子和三个γ光子。这些β粒子和γ光子会增加正电子发射断层扫描（PET）系统中的单计数率和随机计数率，而由Lu - 176的同一次衰变产生并被另一个探测器探测到的β粒子和γ光子可以构成β - γ符合真事件。本研究的目的是测量LSO中天然放射性导致的单计数率、随机计数率和真计数率，并确定基于LSO的临床PET中能量窗的最佳较低能量阈值水平。

方法

首先，我们使用单晶测量LSO中这些β粒子和γ光子的能谱以获取基础数据。然后，我们测量基于LSO的临床PET中天然放射性产生的单计数率、随机计数率和真计数率随较低能量阈值的变化情况。

结果

在PET中，随着较低能量阈值水平的提高，天然本底活度导致的单计数率和随机计数率逐渐降低。在低于250 keV的较低能量阈值下，β - γ符合导致的真计数率超过10 kcps。然而，在设置为高于350 keV的较低能量阈值水平时，LSO中天然放射性导致的这些真计数率可降低至低于1 kcps。

结论

综合考虑，在基于LSO的临床PET中，建议将较低能量阈值水平设置在350 keV以上。

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基于LSO的临床正电子发射断层显像中天然放射性的单计数、随机计数和真计数研究。

Investigation of single, random, and true counts from natural radioactivity in LSO-based clinical PET.

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机构信息

出版信息

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METHODS

RESULTS

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结果

结论

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