对微型PET II探测器的一致性测量:用于小动物成像的1mm /sup /分辨率PET扫描仪

2000 IEEE Nuclear Science Symposium. Conference Record (Cat. No.00CH37149) Pub Date : 2000-12-01 DOI:10.1109/NSSMIC.2000.949333

A. Chatziioannou, Y. Tai, Y. Shao, N. Doshi, B. Silverman, K. Meadors, S. Cherry

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引用次数: 5

摘要

作者目前正在开发一种小型动物PET扫描仪，设计目标为1毫米/sup /图像分辨率。他们已经建造了3对探测器，并在晶体识别、空间、能量和时间分辨率方面进行了测试。探测器由12个1/spl次/12个1/spl次/1/spl次/10 mm LSO晶体(1.15 mm间距)阵列组成，通过5 cm长的相干玻璃纤维束耦合到Hamamatsu H7546 64通道pmt上。光纤连接是必要的，以允许在环形几何扫描仪的高包装率。测试了带和不带外吸波器(EMA)的纤维束。结果表明，使用直径为-500微米的Na-22源，其固有空间分辨率分别为1.12 mm(直接耦合LSO阵列)、1.23 mm(不带EMA束)和1.27 mm(带EMA束)。使用充满F-18的330微米线源，EMA束的固有分辨率提高到1.05 mm。时间和能量分辨率分别为1.96 ns, 21%(直接耦合)，2.20 ns, 23%(无EMA束)和2.99 ns, 30%(有EMA束)。在洪水直方图中，有EMA的峰谷比(5:1)优于没有EMA的束(2.1:1)。这些探测器大大提高了探测器的性能特征，在作者目前的微pet扫描仪。

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Coincidence measurements on detectors for microPET II: a 1 mm/sup 3/ resolution PET scanner for small animal imaging

Summary form only received as follows: The authors are currently developing a small animal PET scanner with a design goal of 1 mm/sup 3/ image resolution. They have built 3 pairs of detectors and tested performance in terms of crystal identification, spatial, energy and timing resolution. The detectors consisted of 12/spl times/12 arrays of 1/spl times/1/spl times/10 mm LSO crystals (1.15 mm pitch) coupled to Hamamatsu H7546 64 channel PMTs via 5 cm long coherent glass fiber bundles. Optical fiber connection is necessary to allow high packing fraction in a ring geometry scanner. Fiber bundles with and without extramural absorber (EMA) were tested. The results demonstrated an intrinsic spatial resolution of 1.12 mm (direct coupled LSO array), 1.23 mm (bundle without EMA) and 1.27 mm (bundle with EMA) using a -500 micron diameter Na-22 source. Using a 330 micron line source filled with F-18, intrinsic resolution for the EMA bundle improved to 1.05 mm. The respective timing and energy resolution values were 1.96 ns, 21% (direct coupled), 2.20 ns, 23% (bundle without EMA) and 2.99 ns, 30% (bundle with EMA). Peak-to-valley ratio in the flood histograms was better with EMA (5:1) compared to the bundle without EMA (2.1:1). These detectors substantially improve on the performance characteristics of the detectors in the authors' current microPET scanner.

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2000 IEEE Nuclear Science Symposium. Conference Record (Cat. No.00CH37149)

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