Your search keyword '"Yuko Mochiya"' showing total 2 results

1. [Radiation dose evaluation in a photon-counting digital mammography unit]

Author

Kichiro Koshida, China Matsumoto, Yuko Mochiya, Kimiya Noto, Kosuke Matsubara, and Kanako Toda

Subjects

Quality Control, medicine.medical_specialty, Photons, Materials science, Digital mammography, medicine.diagnostic_test, business.industry, Phantoms, Imaging, Radiation dose, General Medicine, Skin dose, Radiation Dosage, Photon counting, Radiographic Image Enhancement, medicine, Mammography, Medical physics, Tungsten target, Nuclear medicine, business

Abstract

The purpose of our study was to evaluate radiation dose and beam quality in photon-counting digital mammography (PCDM) and compare them with those in a full-field digital mammography (FFDM) unit. Dose variation in the X-ray tube axis direction, aluminum half-value layer, average glandular and skin doses, and contrast-to-noise ratio (CNR) were evaluated for the PCDM and FFDM units. In PCDM, the dose variation in the X-ray tube axis direction was greater than that in FFDM. At a tube voltage of 28 kV, the first half-value layers were 0.407 mmAl for PCDM, 0.357 mmAl for FFDM with a molybdenum target and molybdenum filter (Mo/Mo), and 0.579 mmAl for FFDM with a tungsten target and rhodium filter (W/Rh). The average glandular doses with 45-mm-equivalent breast thickness were 0.723 mGy for the PCDM, 1.55 mGy for the FFDM with Mo/Mo in low-dose mode, and 0.835 mGy for the FFDM with W/Rh in low-dose mode. In PCDM, the skin dose was equivalent to or lower than that in FFDM. The CNR was 2.65±0.04, 2.35±0.04, and 2.52±0.03 for the PCDM, FFDM with Mo/Mo, and that with W/Rh, respectively. The CNR for PCDM was significantly higher than that for FFDM (p

Published

2014

2. Preliminary investigation of the clinical usefulness of super-high-resolution LCDs with 9 and 15 mega-sub-pixels: observation studies with phantoms

Author

Katsuhiro Ichikawa, Naofumi Kimura, Yuko Mochiya, Shigeru Sanada, Mikio Hasegawa, Ayumi Morishita, Tomoyuki Yamamoto, Aya Nishimura, and Hiroko Kawashima

Subjects

Digital mammography, Computer science, High resolution, Magnification, Physical Therapy, Sports Therapy and Rehabilitation, Imaging phantom, law.invention, law, Image Interpretation, Computer-Assisted, Radiology, Nuclear Medicine and imaging, Computer vision, Clinical efficacy, Technology, Radiologic, Radiation, Liquid-crystal display, Pixel, business.industry, Phantoms, Imaging, Liquid-crystal display (LCD), Sub-pixel, General Medicine, Liquid Crystals, Data Display, Artificial intelligence, business, Independent sub-pixel driving (ISD), Mammography

Abstract

金沢大学附属病院放射線部, Our purpose in this study was to evaluate the preliminary clinical efficacy of soft-copy reading of digital mammography, for a 15-mega-sub-pixel (MsP) and a 9-MsP super-high-resolution liquid-crystal display (SHR-LCD) by use of an independent sub-pixel driving technology. We performed three kinds of phantom observation studies by six radiological technologists. Detectability of a contrast-detail phantom and simulated small objects (SSOs) resembling microcalcifications (MCLs), and shape discrimination ability of SSOs with round and square shapes, were examined and compared with a 5-MP conventional LCD (5-MP LCD). In each study, four types of display magnification ratio were used. The detectability and the shape discrimination ability of the 15-MsP SHR-LCD were highest among the three LCDs of most of the display magnification ratios. The 9-MsP SHR-LCD indicated a higher or equal performance as compared with the 5-MP LCD in the SSO detection and shape studies. The results of our study demonstrated that the SHR-LCDs had good potential to detect MCLs and to evaluate the shape in high-resolution digital mammography. © 2009 Japanese Society of Radiological Technology and Japan Society of Medical Physics.

Published

2009