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呼吸门控PET/CT对肺部结节SUV的影响 被引量:11

The effect of respiratory gated PET/CT on SUV of lung nodules
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摘要 目的观察呼吸门控与非门控PET/CT显像测定肺部结节SUV的差异,探讨不同呼吸时相SUV变化趋势。方法2010年5月至2011年3月进行PET/CT显像、发现有多个肺部结节并同意进行呼吸门控显像者共19例,最终14例共37个结节纳入该研究,其中男6例,女8例,年龄29~80(63.74-7.1)岁。对所有患者进行常规和呼吸门控PET/CT采集。经过后台处理得到呼吸时相相匹配的1个呼吸周期内6个时相的PET/CT融合图像。测得SUV,每个肺部结节的每个指标均进行非门控与门控显像6个时相共7次测量。采用SPSS13.0软件对数据行t检验、秩和检验和相关分析。结果37个肺部结节呼吸门控显像的SUVmax和SUVmean。分别为13.69±6.70和8.56±4.11,明显高于非门控PET/CT的12.764-6.74及7.66±4.00(t=3.475和Z=一3.661,P均〈0.001);但2种显像技术SUV。。与SUV~相关性好(r=0.971和0.969,P均〈0.05);在门控显像中,6个时相不同时相间SUV以时相1即吸气末最高,而时相4(呼气末吸气初)最低。37个结节中4个结节常规显像SUV〈2.5(定义为轻度摄取),其中有1个结节SUVmax由非门控显像的2.13升至门控显像的2.52。结论采用呼吸门控PET/CT显像所得到的肺部结节suVmax和SUVmean。比非门控常规采集高,但两者相关性好;SUV不同时相间以吸气末最高。对轻度摄取FDG的结节,经呼吸门控PET/CT其SUV有所提高,有可能影响临床诊断。 Objective To analyze the difference of SUV between respiratory gated (RG) and nongated PET/CT scans, and to investigate the trend of SUV change in different respiratory phases. Methods Fourteen patients (6 male, 8 female, age range : 29 to 80 years, average age : 63.7 ±7.1 years) with pulmonary nodules who had undergone both RG and non-gated PET/CT between May 2010 to March 2011 were enrolled in the study. A total of 37 pulmonary nodules were identified. Both PET and CT gated data were divided into 6 phases. PET images were matched with CT at different respiratory phases. Each nodule was measured 7 times including gated data of 6 phases and non-gated data. The t-test, rank-sum test and Spearman correlation analysis were used. Results The SUVm~ and SUV of RG PET/CT ( 13.69 + 6.70 and 8.56 -+4.11, respectively) were higher than those of non-gated PET/CT ( 12.76 + 6.74 and 7.66 -+ 4.00, respectively) ( t = 3. 475, Z = - 3. 661, both P 〈 0. 001 ). The two sets were correlated with each other ( r = 0.971 and 0.969, both P 〈 0.05). SUVmaX was the highest at phase 1 ( end of expiration) and lowest at phase 4 ( end of inspiration). In non-gated scans, there were 4 nodules with SUVmax 〈 2. 5, inclu- ding 1 nodule with a higher SUV of 2.52 in the RG scan than SUV of 2.13 in the non-gated scan. Conclusions SUv of lung nodules in RG scans is higher than that in non-gated scans. The highest SUVmax could be obtained at the end of expiration. RG scans might improve the detection of lung nodules with low-grade FDG untake.
出处 《中华核医学与分子影像杂志》 CSCD 北大核心 2012年第2期111-114,共4页 Chinese Journal of Nuclear Medicine and Molecular Imaging
关键词 肺肿瘤 体层摄影术 发射型计算机 体层摄影术 x线计算机 脱氧葡萄糖 Lung neoplasms Tomography, emission-computed Tomography, X-ray computed Deoxyglucose
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参考文献5

  • 1Werner MK,Parker JA,Kolodny GM. Respiratory gating enhances imaging of pulmonary nodules and measurement of tracer uptake in FDG PET/CT[J].American Journal of Roentgenology,2009,(6):1640-1645.doi:10.2214/AJR.09.2516.
  • 2Chang G,Chang T,Pan T. Implementation of an automated respiratory amplitude gating technique for PET/CT:clinical evaluation[J].Journal of Nuclear Medicine,2010.16-24.doi:10.2967/jnumed.109.068759.
  • 3van Elmpt W,Hamill J,Jones J. Optimal gating compared to 3D and 4D PET reconstruction for characterization of lung tumours[J].European Journal of Nuclear Medicine and Molecular Imaging,2011.843-855.
  • 4García Vicente AM,Soriano Castrejón AM,Talavera Rubio MP. 18F-FDG PET-CT respiratory gating in characterization of pulmonary lesions:approximation towards clinical indications[J].Annals of Nuclear Medicine,2010.207-214.
  • 5邵明哲,陈英茂,田嘉禾,尹大一,刘自来,姚树林,张书文,何义杰.肺部肿瘤^(18)F-FDG PET显像的ROI大小与SUV分界点[J].中华核医学杂志,2004,24(3):174-176. 被引量:7

二级参考文献9

  • 1Dhital K, Saunders CA, Seed PT, et al. 18 F-FDG PET and its prognostic value in lung cancer. Eur J Cardiothorac Surg, 2000, 18: 425-428.
  • 2Menda Y, Bushnell DL, Madsen MT, et al. Evaluation of various correc tion to the standardized uptake value for diagnosis of pulmonary malignancy.Nucl Med Commun, 2001, 22: 1077-1081.
  • 3Patz EF, Lowe VJ, Hoffmann JM, et al. Focal pulmonary abnormalities:Evaluation with 18 F-flurodeoxyglucose PET scanning. Radiology, 1993,188: 487-490.
  • 4Bar-Shalom R, Valdivia AY, Blaufox MD. PET imaging in oncology. Semin Nucl Med, 2000, 30:150-185.
  • 5Duhaylongsod FG, Lowe VJ, Patz EF Jr, et al. Detection of primary and recurrent lung cancer by means of 18F-fluorodeoxyglucose positron emission tomography (FDG PET). J Thorac Cardiovasc Surg, 1995, 110: 130-140.
  • 6Prauer HW, Weber WA, Romer W, et al. Controlled prospective study of positron emission tomography using the glucose analogue 18 F-fluorodeoxyglucose in the evaluation of pulmonary nodules. Br J Surg, 1998, 85: 1506-1511.
  • 7Vansteenkiste JF, Stroobants SG, Dupont PJ, et al. Prognostic importance of the standardized uptake value on 18F-fluoro-2-deoxy-glucose positron emission tomography scan in non-small-cell lung cancer: an analysis of 125cases. J Clin Oncol, 1999, 17: 3201-3205.
  • 8Yang SN, Liang JA, Lin FJ, et al. Differentiating benign and malignant pulmonary lesions with FDG PET. Anticancer Res, 2001, 21: 4153-4158.
  • 9Hickeson M, Yun M, Matthies A, et al. Use of a corrected standardized uptake value bassed on the lesion size on CT permits accurate characterization of lung nodules on FDG PET. Eur J Nucl Med, 2002, 29: 1639-1647.

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