Radiation Dose Reduction without Compromise to Image Quality by Alterations of Filtration and Focal Spot Size in Cerebral Angiography.
10.3348/kjr.2017.18.4.722
- Author:
Dong Joon KIM
1
;
Min Keun PARK
;
Da Eun JUNG
;
Jung Han KANG
;
Byung Moon KIM
Author Information
1. Department of Radiology, Yonsei University College of Medicine, Seoul 03722, Korea. djkimmd@yuhs.ac
- Publication Type:Original Article
- Keywords:
Radiation dose reduction;
Radiation risk;
Radiation safety;
Radiation exposure;
Cerebral angiography
- MeSH:
Angiography, Digital Subtraction;
Cerebral Angiography*;
Cohort Studies;
Copper;
Filtration*;
Humans;
Noise;
Radiation Exposure
- From:Korean Journal of Radiology
2017;18(4):722-728
- CountryRepublic of Korea
- Language:English
-
Abstract:
OBJECTIVE: Different angiographic protocols may influence the radiation dose and image quality. In this study, we aimed to investigate the effects of filtration and focal spot size on radiation dose and image quality for diagnostic cerebral angiography using an in-vitro model and in-vivo patient groups. MATERIALS AND METHODS: Radiation dose and image quality were analyzed by varying the filtration and focal spot size on digital subtraction angiography exposure protocols (1, inherent filtration + large focus; 2, inherent + small; 3, copper + large; 4, copper + small). For the in-vitro analysis, a phantom was used for comparison of radiation dose. For the in-vivo analysis, bilateral paired injections, and patient cohort groups were compared for radiation dose and image quality. Image quality analysis was performed in terms of contrast, sharpness, noise, and overall quality. RESULTS: In the in-vitro analysis, the mean air kerma (AK) and dose area product (DAP)/frame were significantly lower with added copper filtration (protocols 3 and 4). In the in-vivo bilateral paired injections, AK and DAP/frame were significantly lower with filtration, without significant difference in image quality. The patient cohort groups with added filtration (protocols 3 and 4) showed significant reduction of total AK and DAP/patient without compromise to the image quality. Variations in focal spot size showed no significant differences in radiation dose and image quality. CONCLUSION: Addition of filtration for angiographic exposure studies can result in significant total radiation dose reduction without loss of image quality. Focal spot size does not influence radiation dose and image quality. The routine angiographic protocol should be judiciously investigated and implemented.
