Your search keyword '"Khailov AM"' showing total 3 results

1. Determination of the Average Native Background and the Light-Induced EPR Signals and their Variation in the Teeth Enamel Based on Large-Scale Survey of the Population.

Author

Ivannikov AI, Khailov AM, Orlenko SP, Skvortsov VG, Stepanenko VF, Zhumadilov KS, Williams BB, Flood AB, and Swartz HM

Subjects

Biological Assay methods, Biological Assay statistics & numerical data, Electron Spin Resonance Spectroscopy statistics & numerical data, Female, Humans, Male, Radiation Dosage, Radiation Monitoring methods, Radiation Monitoring statistics & numerical data, Reference Values, Reproducibility of Results, Russia, Sensitivity and Specificity, Tooth chemistry, Background Radiation, Dental Enamel chemistry, Dental Enamel radiation effects, Electron Spin Resonance Spectroscopy methods, Radiation Exposure statistics & numerical data, Solar Energy, Tooth radiation effects

Abstract

The aim of the study is to determine the average intensity and variation of the native background signal amplitude (NSA) and of the solar light-induced signal amplitude (LSA) in electron paramagnetic resonance (EPR) spectra of tooth enamel for different kinds of teeth and different groups of people. These values are necessary for determination of the intensity of the radiation-induced signal amplitude (RSA) by subtraction of the expected NSA and LSA from the total signal amplitude measured in L-band for in vivo EPR dosimetry. Variation of these signals should be taken into account when estimating the uncertainty of the estimated RSA. A new analysis of several hundred EPR spectra that were measured earlier at X-band in a large-scale examination of the population of the Central Russia was performed. Based on this analysis, the average values and the variation (standard deviation, SD) of the amplitude of the NSA for the teeth from different positions, as well as LSA in outer enamel of the front teeth for different population groups, were determined. To convert data acquired at X-band to values corresponding to the conditions of measurement at L-band, the experimental dependencies of the intensities of the RSA, LSA and NSA on the m.w. power, measured at both X and L-band, were analysed. For the two central upper incisors, which are mainly used in in vivo dosimetry, the mean LSA annual rate induced only in the outer side enamel and its variation were obtained as 10 ± 2 (SD = 8) mGy y -1 , the same for X- and L-bands (results are presented as the mean ± error of mean). Mean NSA in enamel and its variation for the upper incisors was calculated at 2.0 ± 0.2 (SD = 0.5) Gy, relative to the calibrated RSA dose-response to gamma radiation measured under non-power saturation conditions at X-band. Assuming the same value for L-band under non-power saturating conditions, then for in vivo measurements at L-band at 25 mW (power saturation conditions), a mean NSA and its variation correspond to 4.0 ± 0.4 (SD = 1.0) Gy., (© Crown copyright 2016.)

Published

2016

2. Calculation of dose conversion factors for doses in the fingernails to organ doses at external gamma irradiation in air.

Author

Khailov AM, Ivannikov AI, Skvortsov VG, Stepanenko VF, Orlenko SP, Flood AB, Williams BB, and Swartz HM

Abstract

Absorbed doses to fingernails and organs were calculated for a set of homogenous external gamma-ray irradiation geometries in air. The doses were obtained by stochastic modeling of the ionizing particle transport (Monte Carlo method) for a mathematical human phantom with arms and hands placed loosely along the sides of the body. The resulting dose conversion factors for absorbed doses in fingernails can be used to assess the dose distribution and magnitude in practical dose reconstruction problems. For purposes of estimating dose in a large population exposed to radiation in order to triage people for treatment of acute radiation syndrome, the calculated data for a range of energies having a width of from 0.05 to 3.5 MeV were used to convert absorbed doses in fingernails to corresponding doses in organs and the whole body as well as the effective dose. Doses were assessed based on assumed rates of radioactive fallout at different time periods following a nuclear explosion.

Published

2015

3. The neutron dose conversion coefficients calculation in human tooth enamel in an anthropomorphic phantom.

Author

Khailov AM, Ivannikov AI, Skvortsov VG, Stepanenko VF, Tsyb AF, Trompier F, and Hoshi M

Subjects

Computer Simulation, Dose-Response Relationship, Radiation, Neutrons, Phantoms, Imaging, Radiation Dosage, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Artifacts, Biological Assay methods, Dental Enamel chemistry, Dental Enamel radiation effects, Electron Spin Resonance Spectroscopy methods, Models, Biological, Radiometry methods

Abstract

In the present study, MCNP4B simulation code is used to simulate neutron and photon transport. It gives the conversion coefficients that relate neutron fluence to the dose in tooth enamel (molars and pre-molars only) for 20 energy groups of monoenergetic neutrons with energies from 10-9 to 20 MeV for five different irradiation geometries. The data presented are intended to provide the basis for connection between EPR dose values and standard protection quantities defined in ICRP Publication 74. The results of the calculations for critical organs were found to be consistent with ICRP data, with discrepancies generally less than 10% for the fast neutrons. The absorbed dose in enamel was found to depend strongly on the incident neutron energy for neutrons over 10 keV. The dependence of the data on the irradiation geometry is also shown. Lower bound estimates of enamel radiation sensitivity to neutrons were made using obtained coefficients for the secondary photons. Depending on neutron energy, tooth enamel was shown to register 10-120% of the total neutron dose in the human body in the case of pure neutron exposure and AP irradiation geometry.

Published

2010