저선량 복부 CT검사에서 정량적인 지방 측정을 위한 딥러닝 알고리즘의 적용

Abstract

As the obese population increases, computed tomography (CT) tests that can quantitatively measure abdominal obesity have been applied in various studies. To reduce the burden of radiation exposure in CT examinations, various image reconstruction methods such as filtered back projection (FBP) and iterative reconstruction (IR) have been developed, and deep learning iterative reconstruction (DLIR) techniques combined with artificial intelligence have recently emerged. We applied FBP, Adaptive Statistical Iterative Reconstruction-V (ASIR-V) at 30%, DLIR Low, Medium, and High - to low-dose CT images using only 20% of the standard abdominal examination protocols. We compared the measured fat area, total amount, and muscle mass, and evaluated them based on the images applying ASIR-V at 30% to the standard protocols. As a result of the study, the fat area and the amount of fat in the test group decreased by approximately 3~4% in VFA and VFV, and up to about 8% decreased in SFA and SFV in low-dose protocol images applying FBP and ASIR-V 30%. In addition, muscle mass also decreased by 3~6% in image reconstruction images, excluding DLIR. In the case of DLIR, there was either no difference in all items or a slight difference of less than 2%. Image reconstruction methods aimed at reducing noise may impact the results of follow up fat measurement tests. Therefore, the same inspection protocol and reconstruction methods should be applied for accurate evaluation.