Hiroshige Mori scite author profile

Hiroshige Mori

4Publications

74Citation Statements Received

30Citation Statements Given

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Affiliations

Japan Community Healthcare Organization, Hokkaido hospital, Kanazawa University

Publications

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Examination of the Means of Measuring Liver Function in the Hepatobiliary Phase

Mori

Furuya²,

Akimoto³

et al. 2009

Nippon Hoshasen Gijutsu Gakkai Zasshi

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In a field of contrast-enhanced magnetic resonance imaging of the liver, attention has been focused on evaluation of liver function using gadolinium ethoxybenzyl diethylenetriaminepentaacetic acid(EOB). In this study, we examined the possibility of obtaining liver function in only one hepatobiliary phase 60 minutes after injection. First, in regard to the difference between the signal intensity of two materials, we examined the effects of slice gap, surface coil intensity correction(SCIC), and others. Secondly, we compared the difference between liver and spleen signal intensity with biochemical laboratory tests, Child-Pugh class, liver damage class, and the two indices(HH(15) and LHL(15))calculated by 99mTc-DTPA-galactosyl-human serum albumin hepatic scintigraphy in patients with chronic liver diseases. Finally, we designated the "Liver EOB uptake index(L-EOB(60))" from those results, compared with HH(15) and LHL(15). The results demonstrated that the difference between the signal intensity of two materials increased in the lack of slice gap explained by cross talk, and decreased with SCIC. The difference between liver and spleen signal intensity decreased with worsened liver and kidney function. In the case of slice gap >20% and direct bilirubin <0.5 mg/dL without SCIC, the correlation coefficient between L-EOB(60) and LHL(15) was 0.97. L-EOB(60) was strongly proportional to LHL(15). We conclude that L-EOB(60) meeting the above conditions can be employed as a useful index to determine liver function.

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Evaluation of the effectiveness of X-ray protective aprons in experimental and practical fields

Mori

Koshida

Ishigamori

et al. 2013

Radiol Phys Technol

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Few practical evaluation studies have been conducted on X-ray protective aprons in workplaces. We examined the effects of exchanging the protective apron type with regard to exposure reduction in experimental and practical fields, and discuss the effectiveness of X-ray protective aprons. Experimental field evaluations were performed by the measurement of the X-ray transmission rates of protective aprons. Practical field evaluations were performed by the estimation of the differences in the transit doses before and after the apron exchange. A 0.50-mm lead-equivalent-thick non-lead apron had the lowest transmission rate among the 7 protective aprons, but weighed 10.9 kg and was too heavy. The 0.25 and 0.35-mm lead-equivalent-thick non-lead aprons differed little in the practical field of interventional radiology. The 0.35-mm lead apron had lower X-ray transmission rates and transit doses than the 0.25-mm lead-equivalent-thick non-lead apron, and each of these differences exceeded 8 % in the experimental field and approximately 0.15 mSv/month in the practical field of computed tomography (p < 0.01). Therefore, we concluded that the 0.25-mm lead-equivalent-thick aprons and 0.35-mm lead apron are effective for interventional radiology operators and computed tomography nurses, respectively.

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A multicenter study of radiation doses to the eye lenses of medical staff performing non-vascular imaging and interventional radiology procedures in Japan

et al. 2020

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Optimal Scan Timing for Gd-EOB-DTPA Enhanced Liver Dynamic MR Imaging

Akimoto

Mori²,

Fujii³

et al. 2009

Nippon Hoshasen Gijutsu Gakkai Zasshi

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Gadoxetate Sodium (Gd-EOB-DTPA, EOB) is a new contrast agent for magnetic resonance (MR) imaging that allows both vascular and hepatobiliary imaging in one examination. Often in the arterial phase, however, appropriate scan timing is missed and contrast enhancement is not enough. In addition, to shorten the complete examination, some studies have been conducted to examine scan timing at the hepatobiliary phase earlier than 20 min after injection. We studied the optimal scan timing both at the arterial and the hepatobiliary phase. It was appropriate that multiphase acquisition of MR imaging at the arterial phase should be aimed around 25 sec after injection. Moreover, the liver-spleen contrast ratio (C(L-S)) at the hepatobiliary phase was highest at 60 min after injection, and the acquisition of an image earlier than 20 minutes lowered the C(L-S). In the future, it is desirable to establish how to use Gd-EOB-DTPA (EOB) for hepatic MR imaging after taking the extent of liver damage into consideration.

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Hiroshige Mori

Examination of the Means of Measuring Liver Function in the Hepatobiliary Phase

Evaluation of the effectiveness of X-ray protective aprons in experimental and practical fields

A multicenter study of radiation doses to the eye lenses of medical staff performing non-vascular imaging and interventional radiology procedures in Japan

Optimal Scan Timing for Gd-EOB-DTPA Enhanced Liver Dynamic MR Imaging

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