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一种用于PET图像部分容积校正的恢复系数法。

A recovery coefficient method for partial volume correction of PET images.

作者信息

Srinivas Shyam M, Dhurairaj Thiruvenkatasamy, Basu Sandip, Bural Gonca, Surti Suleman, Alavi Abass

机构信息

Department of Nuclear Medicine, Cleveland Clinic, Cleveland, OH, USA.

出版信息

Ann Nucl Med. 2009 Jun;23(4):341-8. doi: 10.1007/s12149-009-0241-9. Epub 2009 Apr 15.

DOI:10.1007/s12149-009-0241-9
PMID:19367446
Abstract

OBJECTIVES

Correction of the "partial volume effect" has been an area of great interest in the recent times in quantitative PET imaging and has been mainly studied with count recovery models based upon phantoms that incorporate hot spheres in a cold background. The goal of this research study was to establish a similar model that is closer to a biological imaging environment, namely hot spheres/lesions in a warm background and to apply this model in a small cohort of patients.

METHODS

A NEMA phantom with six spheres (diameters 1-3.7 cm) was filled with (18)FDG to give sphere:background activity ratios of 8:1, 6:1, and 4:1 for three different acquisitions on a Philips Allegro scanner. The hot sphere SUVmax and the background average SUV were measured for calculation of recovery coefficients (RCs). Using the RCs, the lesion diameters, and the lesion:background ratio, the SUVmax of 64 lesions from 17 patients with biopsy proven lung cancer were corrected.

RESULTS

The RCs versus sphere diameters produced characteristic logarithmic curves for each phantom (RCs ranged from 80% to 11%). From a cohort of 17 patients with biopsy proven lung cancer, 64 lesions combined had a mean SUVmax of 7.0 and size of 2.5 cm. After partial volume correction of the SUVmax of each lesion, the average SUVmax increased to 15.5.

CONCLUSIONS

Hot spheres in a warm background more closely resemble the actual imaging situation in a living subject when compared to hot spheres in a cold background. This method could facilitate generation of equipment specific recovery coefficients for partial volume correction. The clinical implications for the increased accuracy in SUV determination are certainly of potential value in oncologic imaging.

摘要

目的

在定量PET成像中,校正“部分容积效应”是近年来备受关注的领域,主要通过基于在冷背景中纳入热球的体模的计数恢复模型进行研究。本研究的目的是建立一个更接近生物成像环境的类似模型,即在温暖背景中的热球/病变,并将该模型应用于一小群患者。

方法

在飞利浦Allegro扫描仪上,用(18)FDG填充一个带有六个球体(直径1 - 3.7厘米)的NEMA体模,在三种不同的采集中使球体与背景的活度比分别为8:1、6:1和4:1。测量热球的SUVmax和背景平均SUV以计算恢复系数(RC)。利用这些RC、病变直径和病变与背景的比值,对17例经活检证实为肺癌患者的64个病变的SUVmax进行校正。

结果

每个体模的RC与球体直径产生特征性的对数曲线(RC范围为80%至11%)。在17例经活检证实为肺癌的患者中,64个病变的平均SUVmax为7.0,大小为2.5厘米。对每个病变的SUVmax进行部分容积校正后,平均SUVmax增加到15.5。

结论

与冷背景中的热球相比,温暖背景中的热球更接近活体受试者的实际成像情况。这种方法有助于生成用于部分容积校正的设备特定恢复系数。SUV测定准确性提高的临床意义在肿瘤成像中肯定具有潜在价值。

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