Continuous bed motion in a silicon photomultiplier-based scanner provides equivalent spatial resolution and image quality in whole body PET images at similar acquisition times using the step-and-shoot method.

IF 0.6 4区数学 Q3 MATHEMATICS Taiwanese Journal of Mathematics Pub Date : 2022-04-19 DOI:10.2967/jnmt.121.263240

Kodai Kumamoto, Hideaki Sato, Yuji Tsutsui, Shinichi Awamoto, Yasuo Yamashita, Shingo Baba, Masayuki Sasaki

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Abstract

This study investigated the spatial resolution and image quality of the continuous bed motion (CBM) method in a sensitive silicon photomultiplier (SiPM)-based positron emission tomography (PET)/computed tomography (CT) system compared with the traditional step-and-shoot (SS) method. Methods: Siemens Biograph Vision was used in this study. Data acquisition using the SS method was performed for 3 min per bed. In the CBM method, the bed speed ranged from 0.5 to 3.3 mm/s. The acquisition time equivalent to the SS method was 1.1 mm/s for 2-bed ranges and 0.8 mm/s for seven-bed ranges. The spatial resolution was investigated using ¹⁸F point sources and evaluated using the full width at half maximum. Image quality was investigated using a National Electrical Manufacturers Association International Electrotechnical Commission body phantom with six spheres 10-, 13-, 17-, 22-, 28-, and 37-mm inner diameters. The radioactivity concentration ratio of the ¹⁸F solution in all spheres and the background was approximately 4:1. The detectability of each sphere was visually evaluated on a five-step score. Image quality was physically evaluated using the noise equivalent count rate (NECphantom), contrast percentage of the 10-mm hot sphere (QH,10mm), background variability percentage (N10mm), and contrast-noise ratio (QH,10mm/N10mm). Results: The spatial resolution was not affected by the difference of acquisition methods and bed speeds. The detectability of the 10-mm sphere with a bed speed of 2.2 mm/s or faster was significantly inferior to that of the SS 2-bed method. In evaluating image quality, no significant difference in the contrast percentage was observed among the acquisition methods and speeds in the CBM method. However, the increasing bed speed in the CBM method increased the N10mm and decreased the NECphantom. When comparing the SS 2-bed method with the CBM method at 0.8 mm/s, no significant differences in all parameters were observed. Conclusion: In a SiPM-based PET/CT scanner, the CBM method provides equivalent spatial resolution and image quality in whole body PET images with same acquisition time using the SS method.

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在基于硅光电倍增管的扫描仪中进行床面连续运动，可在相似的采集时间内，通过步进拍摄法获得空间分辨率和图像质量相当的全身 PET 图像。

本研究调查了基于灵敏硅光电倍增管（SiPM）的正电子发射计算机断层扫描（PET）/计算机断层扫描（CT）系统中的连续床面运动（CBM）方法与传统的步进扫描（SS）方法相比的空间分辨率和图像质量。方法：本研究使用西门子 Biograph Vision。使用 SS 方法采集数据时，每个床位持续 3 分钟。在 CBM 方法中，床速范围为 0.5 至 3.3 mm/s。相当于 SS 方法的采集时间，2 床范围为 1.1 mm/s，7 床范围为 0.8 mm/s。使用 18F 点源对空间分辨率进行了研究，并使用半最大全宽进行了评估。使用美国国家电气制造商协会国际电工委员会的人体模型对图像质量进行了研究，该模型有六个球体，内径分别为 10 毫米、13 毫米、17 毫米、22 毫米、28 毫米和 37 毫米。所有球体中 18F 溶液的放射性浓度与背景浓度之比约为 4:1。每个球体的可探测性通过五步评分法进行目测评估。图像质量通过噪声等效计数率（NECphantom）、10 毫米热球的对比度百分比（QH,10mm）、背景变异百分比（N10mm）和对比度-噪声比（QH,10mm/N10mm）进行物理评估。结果显示空间分辨率不受采集方法和床速差异的影响。床速为 2.2 mm/s 或更快的 10 mm 球体的可探测性明显低于 SS 2 床方法。在评估图像质量时，CBM 方法的不同采集方法和速度在对比度百分比上没有明显差异。然而，CBM 方法中床速的增加提高了 N10mm，降低了 NECphantom。将 SS 双床法与 CBM 法以 0.8 mm/s 的速度进行比较时，在所有参数上均未见明显差异。结论在基于 SiPM 的 PET/CT 扫描仪中，CBM 方法与 SS 方法在相同的采集时间内提供了同等的全身 PET 图像空间分辨率和图像质量。

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来源期刊

Taiwanese Journal of Mathematics 数学-数学

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The Taiwanese Journal of Mathematics, published by the Mathematical Society of the Republic of China (Taiwan), is a continuation of the former Chinese Journal of Mathematics (1973-1996). It aims to publish original research papers and survey articles in all areas of mathematics. It will also occasionally publish proceedings of conferences co-organized by the Society. The purpose is to reflect the progress of the mathematical research in Taiwan and, by providing an international forum, to stimulate its further developments. The journal appears bimonthly each year beginning from 2008.