[(18)F-FDG正电子发射断层显像-计算机断层扫描与呼吸同步：对肺部病变检测和分类的影响]

[(18)F-FDG PET-CT and respiratory synchronization: effect in the detection and catalogation of pulmonary lesions].

作者信息

García Vicente A M, Soriano Castrejón A, Talavera Rubio P, Poblete García V M, Palomar Muñoz A, Cepedello Boiso I, González García B, Cordero García J M, Bellón Guardia M, Pilkington Woll J P

机构信息

Servicio de Medicina Nuclear, Hospital General de Ciudad Real, Ciudad Real, España.

出版信息

Rev Esp Med Nucl. 2009 Jul-Aug;28(4):181-7. doi: 10.1016/S0212-6982(09)00009-3. Epub 2009 Jul 7.

DOI:10.1016/S0212-6982(09)00009-3

PMID:19922830

Abstract

UNLABELLED

The respiratory movement reduces the sensitivity in the detection of pulmonary lesions. The synchronized acquisition of PET with respiratory movement (4D) can reduce this inconvenient. Our objective was assess the effect of 4D PET-CT in the metabolic activity of (18)F FDG and final classification of pulmonary lesions.

MATERIAL AND METHODS

12 patients with 18 pulmonary lesions with sizes within 0.8-4cm were assessed. The maximum SUV was obtained in the imaging acquired in standard conditions (3D) and the obtained in the respiratory period with higher metabolic activity in 4D images. The difference of percentage between both values was calculated. Moreover were evaluated the changes of the classification of pulmonary nodes (benign or malignant) obtained from the assessment of 4D and 3D PET images.

RESULTS

17/18 pulmonary lesions showed an increase in the SUV(max) value in the 4D with respect to 3D image. 5 lesions showed SUV(max) values >2.5 in 4D image and <2.5 in 3D image. From these 3 were correctly catalogued as malignant with 4D although the number of false positive increased to 2.

CONCLUSION

(18)F-FDG 4D PET-CT shows values of metabolic activity more realistic allowing the correct classification reducing the false negative although increasing the false positive.

摘要

未标注

呼吸运动会降低肺部病变检测的敏感性。PET与呼吸运动同步采集（4D）可减少这一不便。我们的目的是评估4D PET-CT对（18）F FDG代谢活性及肺部病变最终分类的影响。

材料与方法

评估12例患有18个大小在0.8 - 4厘米之间肺部病变的患者。在标准条件下采集的影像（3D）以及在4D影像中代谢活性较高的呼吸期采集的影像中获取最大SUV。计算两者之间的百分比差异。此外，评估从4D和3D PET影像评估中获得的肺结节（良性或恶性）分类的变化。

结果

17/18个肺部病变在4D影像中的SUV（max）值相对于3D影像有所增加。5个病变在4D影像中的SUV（max）值>2.5，而在3D影像中<2.5。其中3个病变通过4D被正确归类为恶性，尽管假阳性数量增加到2个。

结论

（18）F-FDG 4D PET-CT显示的代谢活性值更符合实际，能够正确分类，减少假阴性，尽管增加了假阳性。

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[(18)F-FDG正电子发射断层显像-计算机断层扫描与呼吸同步：对肺部病变检测和分类的影响]

[(18)F-FDG PET-CT and respiratory synchronization: effect in the detection and catalogation of pulmonary lesions].

作者信息

机构信息

出版信息

UNLABELLED

MATERIAL AND METHODS

RESULTS

CONCLUSION

未标注

材料与方法

结果

结论

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