Your search keyword '"Yosuke Ejima"' showing total 2 results

1. Effective dose of A-bomb radiation in Hiroshima and Nagasaki as assessed by chromosomal effectiveness of spectrum energy photons and neutrons

Author

I. Saito, Satoru Endo, Masao S. Sasaki, K. Okamura, Yosuke Ejima, Masaharu Hoshi, and Y. Oka

Subjects

Adult, Photon, Databases, Factual, Physics::Medical Physics, Monte Carlo method, Biophysics, Radiation, Photon energy, Effective dose (radiation), Spectral line, Nuclear physics, Japan, Relative biological effectiveness, Humans, Neutron, Lymphocytes, General Environmental Science, Nuclear Warfare, Physics, Chromosome Aberrations, Neutrons, Photons, Dose-Response Relationship, Radiation, social sciences, humanities, Monte Carlo Method, Relative Biological Effectiveness

Abstract

The effective dose of combined spectrum energy neutrons and high energy spectrum γ-rays in A-bomb survivors in Hiroshima and Nagasaki has long been a matter of discussion. The reason is largely due to the paucity of biological data for high energy photons, particularly for those with an energy of tens of MeV. To circumvent this problem, a mathematical formalism was developed for the photon energy dependency of chromosomal effectiveness by reviewing a large number of data sets published in the literature on dicentric chromosome formation in human lymphocytes. The chromosomal effectiveness was expressed by a simple multiparametric function of photon energy, which made it possible to estimate the effective dose of spectrum energy photons and differential evaluation in the field of mixed neutron and γ-ray exposure with an internal reference radiation. The effective dose of reactor-produced spectrum energy neutrons was insensitive to the fine structure of the energy distribution and was accessible by a generalized formula applicable to the A-bomb neutrons. Energy spectra of all sources of A-bomb γ-rays at different tissue depths were simulated by a Monte Carlo calculation applied on an ICRU sphere. Using kerma-weighted chromosomal effectiveness of A-bomb spectrum energy photons, the effective dose of A-bomb neutrons was determined, where the relative biological effectiveness (RBE) of neutrons was expressed by a dose-dependent variable RBE, RBE(γ, D n), against A-bomb γ-rays as an internal reference radiation. When the newly estimated variable RBE(γ, D n) was applied to the chromosome data of A-bomb survivors in Hiroshima and Nagasaki, the city difference was completely eliminated. The revised effective dose was about 35% larger in Hiroshima, 19% larger in Nagasaki and 26% larger for the combined cohort compared with that based on a constant RBE of 10. Since the differences are significantly large, the proposed effective dose might have an impact on the magnitude of the risk estimates deduced from the A-bomb survivor cohort.

Published

2006

2. Chromosome aberration frequency and radiation dose to lymphocytes by alpha-particles from internal deposit of Thorotrast

Author

S Kodama, Masao S. Sasaki, C Kido, Toshihiro Takatsuji, and Yosuke Ejima

Subjects

Lymphocyte, Biophysics, Biology, Chromosome aberration, Chromosomes, chemistry.chemical_compound, medicine, Humans, Lymphocytes, Thorotrast, General Environmental Science, Aged, Chromosome Aberrations, Thorium dioxide, Radiation, Dose-Response Relationship, Radiation, Alpha particle, Middle Aged, Alpha Particles, Molecular biology, Dose–response relationship, Cell killing, medicine.anatomical_structure, chemistry, Peripheral blood lymphocyte, Immunology, Thorium Dioxide

Abstract

Frequencies of chromosome aberrations in peripheral blood lymphocytes from 63 Thorotrast patients were analysed basing on the age distribution of lymphocytes. The frequency and distribution of chromosome aberrations among lymphocytes are best explained if we assume that the lymphocytes are renewed as an exponential function of time and spend most of their lifetime in the distributive pool where, while exchange of lymphocytes is taking place, the lymphocytes are hit by alpha-particles from Thorotrast aggregates resulting in the formation of chromosome aberrations and killing at specific rates per hit. The model predicts that the aberration frequency is rather insensitive to the fluence rate because of modulation by cell killing by hit. Fitting the observed data to the model showed that approximately 0.8 dicentrics and rings were produced by a single path of alpha-particle and average fluence rate to lymphocytes in a group of patients with the highest aberration frequency was estimated to be about 1.5 hits or 87 rad/lymphocyte/year.

Published

1987