Ohno Yoshiharu, Yoshikawa Takeshi, Takenaka Daisuke, Fujisawa Yasuko, Sugihara Naoki, Kishida Yuji, Seki Shinichiro, Koyama Hisanobu, Sugimura Kazuro
Division of Functional and Diagnostic Imaging Research, Department of Radiology, Kobe University Graduate School of Medicine, Kobe, Japan; Advanced Biomedical Imaging Research Center, Kobe University Graduate School of Medicine, Kobe, Japan.
Division of Functional and Diagnostic Imaging Research, Department of Radiology, Kobe University Graduate School of Medicine, Kobe, Japan; Advanced Biomedical Imaging Research Center, Kobe University Graduate School of Medicine, Kobe, Japan.
Eur J Radiol. 2017 Jan;86:41-51. doi: 10.1016/j.ejrad.2016.10.035. Epub 2016 Nov 2.
To prospectively and directly compare the capability for assessments of regional ventilation and pulmonary functional loss in smokers of xenon-ventilation CT obtained with the dual-energy CT (DE-CT) and subtraction CT (Sub-CT) MATERIALS AND METHODS: Twenty-three consecutive smokers (15 men and 8 women, mean age: 69.7±8.7years) underwent prospective unenhanced and xenon-enhanced CTs, the latter by Sub-CT and DE-CT methods, ventilation SPECT and pulmonary function tests. Sub-CT was generated from unenhanced and xenon-enhanced CT, and all co-registered SPECT/CT data were produced from SPECT and unenhanced CT data. For each method, regional ventilation was assessed by using a 11-point scoring system on a per-lobe basis. To determine the functional lung volume by each method, it was also calculated for individual sublets with a previously reported method. To determine inter-observer agreement for each method, ventilation defect assessment was evaluated by using the χ2 test with weighted kappa statistics. For evaluation of the efficacy of each method for pulmonary functional loss assessment, functional lung volume was correlated with%FEV.
Each inter-observer agreement was rated as substantial (Sub-CT: κ=0.69, p<0.0001; DE-CT: κ=0.64, p<0.0001; SPECT/CT: κ=0.64, p<0.0001). Functional lung volume for each method showed significant to good correlation with%FEV (Sub-CT: r=0.72, p=0.0001; DE-CT: r=0.74, p<0.0001; SPECT/CT: r=0.66, p=0.0006).
Xenon-enhanced CT obtained by Sub-CT can be considered at least as efficacious as that obtained by DE-CT and SPECT/CT for assessment of ventilation abnormality and pulmonary functional loss in smokers.
前瞻性、直接比较双能CT(DE-CT)和减影CT(Sub-CT)获得的氙气通气CT对吸烟者区域通气和肺功能损失的评估能力。
连续23名吸烟者(15名男性和8名女性,平均年龄:69.7±8.7岁)接受前瞻性平扫CT和氙气增强CT检查,后者采用Sub-CT和DE-CT方法,进行通气SPECT和肺功能测试。Sub-CT由平扫CT和氙气增强CT生成,所有配准的SPECT/CT数据由SPECT和平扫CT数据生成。对于每种方法,采用11分评分系统按叶评估区域通气情况。为通过每种方法确定功能性肺容积,还使用先前报道的方法对各个小叶进行了计算。为确定每种方法的观察者间一致性,采用加权kappa统计的χ2检验评估通气缺陷评估。为评估每种方法对肺功能损失评估的有效性,将功能性肺容积与FEV%进行相关性分析。
每种方法的观察者间一致性均被评为高度一致(Sub-CT:κ=0.69,p<0.0001;DE-CT:κ=0.64,p<0.0001;SPECT/CT:κ=0.64,p<0.0001)。每种方法的功能性肺容积与FEV%均显示出显著至良好的相关性(Sub-CT:r=0.72,p=0.0001;DE-CT:r=0.74,p<0.0001;SPECT/CT:r=0.66,p=0.0006)。
对于吸烟者通气异常和肺功能损失的评估,Sub-CT获得的氙气增强CT至少与DE-CT和SPECT/CT获得的同样有效。
