In Nihon Hoshasen Gijutsu Gakkai zasshi
PURPOSE : The purposes of this study were to evaluate the low-contrast detectability of CT images assuming hepatocellular carcinoma and to determine whether dose reduction in abdominal plain CT imaging is possible.
METHODS : A Catphan 600 was imaged at 350, 250, 150, and 50 mA using an Aquilion ONE PRISM Edition (Canon) and reconstructed using deep learning reconstruction (DLR) and model-based iterative reconstruction (MBIR). A low-contrast object-specific contrast-to-noise ratio (CNRLO) was measured and compared in a 5-mm module with a CT value difference of 10 HU, assuming hepatocellular carcinoma; a visual examination was also performed. Moreover, an NPS within a uniform module was measured.
RESULTS : CNRLO was higher for DLR at all doses (1.12 at 150 mA for DLR and 1.07 at 250 mA for MBIR). On visual evaluation, DLR could detect up to 150 mA and MBIR up to 250 mA. The NPS was lower for DLR at 0.1 cycles/mm at 150 mA.
CONCLUSION : The low-contrast detection performance was better with DLR than with MBIR, indicating the possibility of dose reduction.
Onizuka Yasuhiro, Sakai Yuki, Shirasaka Takashi, Kondo Masatoshi, Kato Toyoyuki
2023-Mar-03
abdominal plain computed tomography (CT), deep learning reconstruction, low contrast detectability, radiation dose reduction
