全身FDG-PET扫描图像质量控制的NEC密度和肝脏ROI信噪比：与视觉评估的比较

NEC density and liver ROI S/N ratio for image quality control of whole-body FDG-PET scans: comparison with visual assessment.

作者信息

Mizuta Tetsuro, Senda Michio, Okamura Terue, Kitamura Keishi, Inaoka Yuichi, Takahashi Munehiro, Matsumoto Keiichi, Abe Makoto, Shimonishi Yoshihiro, Shiomi Susumu

机构信息

Medical Systems Division, Shimadzu Corporation, Kyoto, Japan.

出版信息

Mol Imaging Biol. 2009 Nov-Dec;11(6):480-6. doi: 10.1007/s11307-009-0214-3. Epub 2009 Mar 28.

DOI:10.1007/s11307-009-0214-3

PMID:19330382

Abstract

PURPOSE

Patient noise equivalent count (NEC), NEC density, and liver region of interest (ROI) S/N have been proposed as physical indicators of image quality, but have not been thoroughly compared with visual assessments. In this study, those indicators were contrasted with blind visual evaluations for whole-body fluorodeoxyglucose-positron emission tomography (FDG-PET) images acquired under a variety of scanning conditions and body weights.

METHODS

Images were acquired on 15 normal subjects using a SET-3000B/L PET scanner with a continuous bed motion. Body weight ranged from 50.2 to 95.7 kg, with injected activity ranging from 71 to 333 MBq (1.40 to 3.67 MBq/kg) and a scan duration from 10 to 30 min. Patient NEC (PNEC; counts/cm) was calculated as the NEC rate divided by bed speed. NEC density (counts/cm(3)) was defined as the PNEC divided by the cross-sectional area derived from transmission data. Both PNEC and NEC density were averaged from neck to abdomen. Liver S/N was obtained as the pixel mean/SD within the ROI. Blind reviews by 18 professionals were used to visually evaluate image quality.

RESULTS

Average visual score correlated with liver S/N, PNEC, and NEC density, with a rank correlation coefficient of 0.81, 0.86, and 0.91, respectively (each p < 0.0003). The "acceptable" quality roughly corresponded to a liver S/N of 10, PNEC of 380 kcounts/cm, and NEC density of 550 counts/cm(3) or more.

CONCLUSIONS

NEC density, representing count statistics per body volume, reflects the visual image quality assessment and may be utilized for quality control of whole-body FDG-PET images together with the liver ROI S/N ratio.

摘要

目的

患者噪声等效计数（NEC）、NEC密度和肝脏感兴趣区（ROI）信噪比已被提议作为图像质量的物理指标，但尚未与视觉评估进行全面比较。在本研究中，将这些指标与在各种扫描条件和体重下获取的全身氟脱氧葡萄糖正电子发射断层扫描（FDG-PET）图像的盲法视觉评估进行对比。

方法

使用配备连续床位移动功能的SET-3000B/L PET扫描仪对15名正常受试者进行图像采集。体重范围为50.2至95.7千克，注射活度范围为71至333兆贝可（1.40至3.67兆贝可/千克），扫描持续时间为10至30分钟。患者NEC（PNEC；计数/厘米）计算为NEC率除以床位速度。NEC密度（计数/立方厘米）定义为PNEC除以从透射数据得出的横截面积。PNEC和NEC密度均从颈部到腹部进行平均。肝脏信噪比通过ROI内的像素均值/标准差获得。由18名专业人员进行盲法评估以视觉方式评估图像质量。

结果

平均视觉评分与肝脏信噪比、PNEC和NEC密度相关，等级相关系数分别为0.81、0.86和0.91（各p<0.0003）。“可接受”质量大致对应于肝脏信噪比为10、PNEC为380千计数/厘米、NEC密度为550计数/立方厘米或更高。

结论

代表每单位体积计数统计的NEC密度反映了视觉图像质量评估，可与肝脏ROI信噪比一起用于全身FDG-PET图像的质量控制。

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全身FDG-PET扫描图像质量控制的NEC密度和肝脏ROI信噪比：与视觉评估的比较

NEC density and liver ROI S/N ratio for image quality control of whole-body FDG-PET scans: comparison with visual assessment.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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