Chen Eric L, Ross Jeremy A, Grant Christopher, Wilbur Andrew, Mehta Nikhil, Hart Eric, Mar Winnie A
College of Medicine, University of Illinois at Chicago, Chicago, Illinois.
Medical College of Wisconsin, Milwaukee Wisconsin.
J Am Coll Radiol. 2017 May;14(5):648-653. doi: 10.1016/j.jacr.2016.11.007. Epub 2017 Jan 10.
The use of CT pulmonary angiography (CTPA) to evaluate for pulmonary embolism has been increasing, and carries a significant radiation dose. We evaluate image quality of lower-dose images, taking into account patient size as well as the effects of image postprocessing.
A total of 250 CTPAs were retrospectively reviewed. The following parameters were obtained: kVp, mA, dose length product, Hounsfield units (HU) with standard deviation in the main pulmonary artery, transverse scout measurement, and subjective image quality.
Radiation dose decreased 55% by reducing kVp from 120 to 100, and 60% from 100 to 80 kVp. Radiation dose decreased 82% from 120 to 80 kVp. Noise increased 38% from 120 kVp to 100 kVp, and increased 23% from 100 kVp to 80 kVp. Adding an overlapped reconstructed image decreased noise by 16% to 21%. Despite the increase in image noise, diagnostic quality was significantly improved at 80 and 100 kVp, compared with 120 kVp, with an average subjective quality rating of 3.8, 4.0, and 3.2, respectively, and an average pulmonary artery density of 536, 423, and 278 HU. Even in larger patients, qualitative image quality was better at 100 kVp compared with 120 kVp, with an average quality rating of 3.6 versus 2.9, respectively.
Radiation dose exposure can be easily reduced on CTPA by lowering kVp, which at the same time improves image quality. Studies using a lower kVp were of significantly higher diagnostic quality. This held true even in larger patients.
使用CT肺动脉造影(CTPA)评估肺栓塞的情况日益增多,但其辐射剂量较大。我们在考虑患者体型以及图像后处理效果的情况下,评估低剂量图像的质量。
回顾性分析250例CTPA检查。获取以下参数:管电压(kVp)、管电流(mA)、剂量长度乘积、主肺动脉的亨氏单位(HU)及其标准差、横断面扫描测量值以及主观图像质量。
将管电压从120 kVp降至100 kVp,辐射剂量降低55%;从100 kVp降至80 kVp,辐射剂量降低60%。从120 kVp降至80 kVp,辐射剂量降低82%。噪声从120 kVp增加到100 kVp时增加38%,从100 kVp增加到80 kVp时增加23%。添加重叠重建图像可使噪声降低16%至21%。尽管图像噪声增加,但与120 kVp相比,80 kVp和100 kVp时的诊断质量显著提高,主观质量评分平均分别为3.8、4.0和3.2,主肺动脉平均密度分别为536、423和278 HU。即使在体型较大的患者中,100 kVp时的图像质量定性上也优于120 kVp,平均质量评分分别为3.6和2.9。
在CTPA检查中,通过降低管电压可轻松降低辐射剂量,同时提高图像质量。使用较低管电压的研究诊断质量明显更高。即使在体型较大的患者中也是如此。
