医学影像学杂志
醫學影像學雜誌
의학영상학잡지
JOURNAL OF MEDICAL IMAGING
2015年
5期
897-901
,共5页
左倩%孙浩然%于晓坤%卢宏亮%邵荣江
左倩%孫浩然%于曉坤%盧宏亮%邵榮江
좌천%손호연%우효곤%로굉량%소영강
能谱成像%CT 结肠成像%对比噪声比%结肠息肉
能譜成像%CT 結腸成像%對比譟聲比%結腸息肉
능보성상%CT 결장성상%대비조성비%결장식육
Gemstone spectral Imaging%CT colongraphy%Contrast noise ratio%Colonic polyp
目的:评价宝石能谱成像(GSI)单能量及质量控制(QC)图像对粪便掩盖背景下结肠小息肉的显示能力,确定显示结肠息肉最佳单能量图像。方法离体猪结肠结扎获得20个模拟息肉,向肠管中灌入碘水‐玉米糊混合物,使用宝石 CT 扫描,提取40~140keV 单能量及 QC 图像,在工作站获得多平面重建(MPR)图像、碘基图和水基图,比较不同图像噪声、对比噪声比(CNR)及息肉检出率。结果图像噪声在70keV 达相对低点,明显低于40、50、60、75、80、85keV 图像噪声( F =443.946,P <0.05)。图像 CNR 在70keV 最高,明显高于除60keV 以外单能量图像( F =15.138,P <0.05)。70keV(最佳 CNR 单能量图像)图像噪声低于 QC 图像噪声( t =‐2.807,P <0.05),CNR 高于 QC 图像 CNR( t=2.619,P <0.05)。70、75、80、85、90keV 及 QC 图像息肉检出率为75%(15/20),高于其它单能量图像。结论 GSI 具有显示粪便掩盖背景下结肠小息肉的能力,GSI‐CT 显示粪便掩盖背景下结肠息肉的最佳单能量图像为70keV 图像。
目的:評價寶石能譜成像(GSI)單能量及質量控製(QC)圖像對糞便掩蓋揹景下結腸小息肉的顯示能力,確定顯示結腸息肉最佳單能量圖像。方法離體豬結腸結扎穫得20箇模擬息肉,嚮腸管中灌入碘水‐玉米糊混閤物,使用寶石 CT 掃描,提取40~140keV 單能量及 QC 圖像,在工作站穫得多平麵重建(MPR)圖像、碘基圖和水基圖,比較不同圖像譟聲、對比譟聲比(CNR)及息肉檢齣率。結果圖像譟聲在70keV 達相對低點,明顯低于40、50、60、75、80、85keV 圖像譟聲( F =443.946,P <0.05)。圖像 CNR 在70keV 最高,明顯高于除60keV 以外單能量圖像( F =15.138,P <0.05)。70keV(最佳 CNR 單能量圖像)圖像譟聲低于 QC 圖像譟聲( t =‐2.807,P <0.05),CNR 高于 QC 圖像 CNR( t=2.619,P <0.05)。70、75、80、85、90keV 及 QC 圖像息肉檢齣率為75%(15/20),高于其它單能量圖像。結論 GSI 具有顯示糞便掩蓋揹景下結腸小息肉的能力,GSI‐CT 顯示糞便掩蓋揹景下結腸息肉的最佳單能量圖像為70keV 圖像。
목적:평개보석능보성상(GSI)단능량급질량공제(QC)도상대분편엄개배경하결장소식육적현시능력,학정현시결장식육최가단능량도상。방법리체저결장결찰획득20개모의식육,향장관중관입전수‐옥미호혼합물,사용보석 CT 소묘,제취40~140keV 단능량급 QC 도상,재공작참획득다평면중건(MPR)도상、전기도화수기도,비교불동도상조성、대비조성비(CNR)급식육검출솔。결과도상조성재70keV 체상대저점,명현저우40、50、60、75、80、85keV 도상조성( F =443.946,P <0.05)。도상 CNR 재70keV 최고,명현고우제60keV 이외단능량도상( F =15.138,P <0.05)。70keV(최가 CNR 단능량도상)도상조성저우 QC 도상조성( t =‐2.807,P <0.05),CNR 고우 QC 도상 CNR( t=2.619,P <0.05)。70、75、80、85、90keV 급 QC 도상식육검출솔위75%(15/20),고우기타단능량도상。결론 GSI 구유현시분편엄개배경하결장소식육적능력,GSI‐CT 현시분편엄개배경하결장식육적최가단능량도상위70keV 도상。
Objective To evaluate the efficacy of monochromatic energy images and quality control (QC) images of Gem‐stone Spectral Imaging (GSI) in detecting small phantom colonic polyps masked by bowel feces ,and to choose the optimal monochromatic energy image .Methods A series of twenty phantom polyps sized from 1 mm to 10 mm were established by ligation on an isolated segment of porcine colon .Simulated iodine‐tagged fecal material was filled into the phantom . Volume data were acquired on a High Definition CT scanner ,monochromatic energy images at 40 ~ 140 keV and QC ima‐ges were reconstructed .Multiplanar reconstruction (MPR) ,iodine‐based images and water‐based images were reconstruc‐ted .The image noise levels ,the contrast to noise ratios (CNR) and the detection rate of phantom polyps were assessed by two radiologists blindly .Results The image noise of 70 keV achieved relatively low point which was significantly lower than 40 ,50 ,60 ,75 ,80 and 85 keV monochromatic energy images ( F = 443 .946 ,P < 0 .05) .The 70 keV monochromat‐ic energy images had the highest CNR ,and the CNR of 70 keV was significantly higher than other monochromatic energy images except 60 keV ( F = 15 .138 ,P < 0 .05) .The image noise of 70 keV monochromatic energy images were signifi‐cantly lower than QC images ( t = ‐2 .807 ,P < 0 .05) ,and the CNR of 70 keV monochromatic energy images were signifi‐cantly higher than QC images ( t = 2 .619 ,P < 0 .05) .The detection rates of colonic polyps were 75% (15/20) for 70 , 75 ,80 ,85 ,90 keV images and QC images ,which were higher than other monochromatic energy images .Conclusion GSI has the ability to detect small colonic polyps masked by bowel feces in phantom study .The optimal monochromatic energy images of GSI‐CT is 70 keV in detecting small phantom colonic polyps masked by bowel feces .
