患者体重和发射扫描持续时间对PET/CT图像质量及病变可检测性的影响。

Impact of patient weight and emission scan duration on PET/CT image quality and lesion detectability.

作者信息

Halpern Benjamin S, Dahlbom Magnus, Quon Andrew, Schiepers Christian, Waldherr Christian, Silverman Daniel H, Ratib Osman, Czernin Johannes

机构信息

Department of Molecular and Medical Pharmacology, Ahmanson Biological Imaging Center, David Geffen School of Medicine at UCLA, Los Angeles, California 90095-6942, USA.

出版信息

J Nucl Med. 2004 May;45(5):797-801.

PMID:15136629

Abstract

UNLABELLED

This study was performed to prospectively evaluate fast PET/CT imaging protocols using lutetium oxyorthosilicate (LSO) detector technology and 3-dimensional (3D) image-acquisition protocols.

METHODS

Fifty-seven consecutive patients (30 male, 27 female; mean age, 58.6 +/- 15.7 y) were enrolled in the study. After intravenous injection of 7.77 MBq (0.21 mCi) of (18)F-FDG per kilogram, a standard whole-body CT study (80-110 s) and PET emission scan were acquired for 4 min/bed position in 49 patients and 3 min/bed position in 8 patients. One-minute-per-bed-position data were then extracted from the 3- or 4-min/bed position scans to reconstruct single-minute/bed position scans for each patient. Patients were subgrouped according to weight as follows: <59 kg (<130 lb; n = 15), 59-81 kg (130-179 lb; n = 33), and >or=82 kg (>or=180 lb; n = 9). Three experienced observers recorded numbers and locations of lesion by consensus and independently rated image quality as good, moderate, poor, or nondiagnostic.

RESULTS

The observers analyzed 220 reconstructed whole-body PET images from 57 patients. They identified 114 lesions ranging in size from 0.7 to 7.0 cm on the 3- (n = 8) and 4-min/bed position images (n = 49). Of these, only 4 were missed on the 1-min/bed position scans, and all lesions were identified on the corresponding 2-min/bed position images. One- and 2-min/bed position image quality differed significantly from the 4-min/bed position image reference (P < 0.05).

CONCLUSION

LSO PET detector technology permits fast 3D imaging protocols whereby weight-based emission scan durations ranging from 1 to 3 min/bed position provide similar lesion detectability when compared with 4-min/bed position images.

摘要

未标注

本研究旨在前瞻性评估使用正硅酸镥（LSO）探测器技术的快速PET/CT成像方案和三维（3D）图像采集方案。

方法

连续纳入57例患者（男性30例，女性27例；平均年龄58.6±15.7岁）。每千克静脉注射7.77 MBq（0.21 mCi）的（18）F-FDG后，49例患者进行标准的全身CT检查（80 - 110秒），PET发射扫描每个床位采集4分钟，8例患者每个床位采集3分钟。然后从3分钟或4分钟/床位扫描中提取每分钟/床位的数据，为每位患者重建单分钟/床位扫描。患者按体重分为以下亚组：<59 kg（<130磅；n = 15），59 - 81 kg（130 - 179磅；n = 33），以及≥82 kg（≥180磅；n = 9）。三名经验丰富的观察者通过共识记录病变的数量和位置，并独立将图像质量评为好、中、差或无法诊断。

结果

观察者分析了来自57例患者的220张重建的全身PET图像。他们在3分钟（n = 8）和4分钟/床位图像（n = 49）上识别出114个大小在0.7至7.0厘米之间的病变。其中，在1分钟/床位扫描中仅漏诊4个，所有病变在相应的2分钟/床位图像上均被识别。1分钟和2分钟/床位的图像质量与4分钟/床位的图像参考有显著差异（P < 0.05）。

结论

LSO PET探测器技术允许快速3D成像方案，与4分钟/床位图像相比，基于体重的发射扫描持续时间为1至3分钟/床位时提供相似的病变可检测性。

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患者体重和发射扫描持续时间对PET/CT图像质量及病变可检测性的影响。

Impact of patient weight and emission scan duration on PET/CT image quality and lesion detectability.

作者信息

机构信息

出版信息

UNLABELLED

METHODS

RESULTS

CONCLUSION

未标注

方法

结果

结论

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