Application of Individualized Optimal Monochromatic Energy Images in Low Radiation Dose and Contrast Dose Spectral Coronary CT Angiography
10.3969/j.issn.1005-5185.2017.01.008
- VernacularTitle:个体化最佳单能量图像在能谱双低冠状动脉成像中的应用
- Author:
Xiaoxia CHEN
;
Taiping HE
;
Yong YU
;
Zhanli REN
;
Chunling MA
;
Dong HAN
- Keywords:
Coronary disease;
Tomography,X-ray computed;
Coronary angiography;
Image processing,computer-assisted;
Radiation dosage
- From:
Chinese Journal of Medical Imaging
2017;25(1):30-33
- CountryChina
- Language:Chinese
-
Abstract:
Purpose To explore the value of spectral coronary CT angiography (CCTA) in reducing radiation dose and contrast dose using individualized optimal monochromatic imaging.Materials and Methods Sixty patients with suspected coronary disease were recruited in the study,who were randomly divided into two groups:group A (n=30) using conventional CT protocol with 350 mgI/ml contrast agent;group B (n=30) using low dose spectral CT imaging mode with 300 mgI/ml contrast agent.The images of group A were reconstructed with conventional process,and the images of group B were reconstructed with Optimal CNR to obtain the optimal monochromatic energy images.The images of both groups were transferred to an Advanced Workstation for analysis.Double-blinded method was carried out to qualify the images.CT values of coronary artery segments,as well as standard deviations (SD),the signal-to-noise ratio (SNR),contrast-to-noise ratio (CNR) of aortic sinus were measured.Radiation doses and iodine intake were compared between the two groups.The optimal keV distribution in group B was analyzed.Results There was no significant difference for the subjective scoring of image quality,CT value of each coronary artery segment,SD,SNR,and CNR values between the two groups (P>0.05).The effective radiation dose and total iodine load in group B were less than that in group A (P<0.05).The optimal energy distribution for group B was 60-75 keV,average at (66.50+3.91) keV.Conclusion Compared with the conventional CT protocol,spectral CT imaging at optimal energy levels combined with iterative reconstruction can effectively reduce the radiation dose and iodine load,and obtain better images than usual protocol.
