采用首过分析技术仅进行两次容积扫描的动态肺部 CT 灌注:在猪模型中的验证。
Dynamic pulmonary CT perfusion using first-pass analysis technique with only two volume scans: Validation in a swine model.
机构信息
Department of Radiological Sciences, University of California Irvine, Irvine, California, United States of America.
出版信息
PLoS One. 2020 Feb 12;15(2):e0228110. doi: 10.1371/journal.pone.0228110. eCollection 2020.
PURPOSE
To evaluate the accuracy of a low-dose first-pass analysis (FPA) CT pulmonary perfusion technique in comparison to fluorescent microsphere measurement as the reference standard.
METHOD
The first-pass analysis CT perfusion technique was validated in six swine (41.7 ± 10.2 kg) for a total of 39 successful perfusion measurements. Different perfusion conditions were generated in each animal using serial balloon occlusions in the pulmonary artery. For each occlusion, over 20 contrast-enhanced CT images were acquired within one breath (320 x 0.5mm collimation, 100kVp, 200mA or 400mA, 350ms gantry rotation time). All volume scans were used for maximum slope model (MSM) perfusion measurement, but only two volume scans were used for the FPA measurement. Both MSM and FPA perfusion measurements were then compared to the reference fluorescent microsphere measurements.
RESULTS
The mean lung perfusion of MSM, FPA, and microsphere measurements were 6.21 ± 3.08 (p = 0.008), 6.59 ± 3.41 (p = 0.44) and 6.68 ± 3.89 ml/min/g, respectively. The MSM (PMSM) and FPA (PFPA) perfusion measurements were related to the corresponding reference microsphere measurement (PMIC) by PMSM = 0.51PMIC + 2.78 (r = 0.64) and PFPA = 0.79PMIC + 1.32 (r = 0.90). The root-mean-square-error for the MSM and FPA techniques were 3.09 and 1.72 ml/min/g, respectively. The root-mean-square-deviation for the MSM and FPA techniques were 2.38 and 1.50 ml/min/g, respectively. The CT dose index for MSM and FPA techniques were 138.7 and 8.4mGy, respectively.
CONCLUSIONS
The first-pass analysis technique can accurately measure regional pulmonary perfusion and has the potential to reduce the radiation dose associated with dynamic CT perfusion for assessment of pulmonary disease.
目的
评估低剂量首过分析(FPA)CT 肺灌注技术的准确性,并将其与荧光微球测量作为参考标准进行比较。
方法
对 6 只猪(41.7 ± 10.2kg)进行了首过分析 CT 灌注技术的验证,共进行了 39 次成功的灌注测量。在每个动物中,通过肺动脉的连续球囊阻塞来产生不同的灌注条件。对于每个阻塞,在一次呼吸内采集了超过 20 次的对比增强 CT 图像(320 x 0.5mm 准直,100kVp,200mA 或 400mA,350ms 机架旋转时间)。所有容积扫描均用于最大斜率模型(MSM)灌注测量,但仅使用两个容积扫描进行 FPA 测量。然后将 MSM 和 FPA 灌注测量值与参考荧光微球测量值进行比较。
结果
MSM、FPA 和微球测量的平均肺灌注分别为 6.21 ± 3.08(p = 0.008)、6.59 ± 3.41(p = 0.44)和 6.68 ± 3.89ml/min/g。MSM(PMSM)和 FPA(PFPA)灌注测量值与相应的参考微球测量值(PMIC)的关系为 PMSM = 0.51PMIC + 2.78(r = 0.64)和 PFPA = 0.79PMIC + 1.32(r = 0.90)。MSM 和 FPA 技术的均方根误差分别为 3.09 和 1.72ml/min/g。MSM 和 FPA 技术的均方根偏差分别为 2.38 和 1.50ml/min/g。MSM 和 FPA 技术的 CT 剂量指数分别为 138.7 和 8.4mGy。
结论
首过分析技术可以准确测量区域性肺灌注,并有潜力降低与评估肺部疾病相关的动态 CT 灌注的辐射剂量。
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