Estimation of absorbed dose in cell nuclei due to DNA-bound 3h

Masahiro Saito; Masahiro R. Ishida; Christian Streffer; Michael Molls

doi:10.1097/00004032-198504000-00009

Estimation of absorbed dose in cell nuclei due to DNA-bound ³h

Masahiro Saito, Masahiro R. Ishida, Christian Streffer, Michael Molls

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The average absorbed dose due to DNA-bound ³H in a cell nucleus was estimated by a Monte Carlo simulation for a model nucleus which was assumed to be spheroidal. The shape of the cell nucleus was found to be of minor importance in determining the average absorbed dose. The volume of the cell nucleus was the major dose-determining factor for cell nuclei which have the same DNA content and the same specific activity of DNA. This result was applied to estimating the accumulated dose in the cell nuclei of organs of young mice born from mother mice which ingested ³H-thymidine with drinking water during pregnancy. The values of dose-modifying factors for the accumulated dose due to DNA-bound ³H compared to the dose due to an assumed homogenous distribution of ³H in organ were found to be between about 2 and 6 for the various organs.

Original language	English
Pages (from-to)	465-473
Number of pages	9
Journal	Health Physics
Volume	48
Issue number	4
DOIs	https://doi.org/10.1097/00004032-198504000-00009
State	Published - Apr 1985
Externally published	Yes

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title = "Estimation of absorbed dose in cell nuclei due to DNA-bound 3h",

abstract = "The average absorbed dose due to DNA-bound 3H in a cell nucleus was estimated by a Monte Carlo simulation for a model nucleus which was assumed to be spheroidal. The shape of the cell nucleus was found to be of minor importance in determining the average absorbed dose. The volume of the cell nucleus was the major dose-determining factor for cell nuclei which have the same DNA content and the same specific activity of DNA. This result was applied to estimating the accumulated dose in the cell nuclei of organs of young mice born from mother mice which ingested 3H-thymidine with drinking water during pregnancy. The values of dose-modifying factors for the accumulated dose due to DNA-bound 3H compared to the dose due to an assumed homogenous distribution of 3H in organ were found to be between about 2 and 6 for the various organs.",

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AU - Saito, Masahiro

AU - Ishida, Masahiro R.

AU - Streffer, Christian

AU - Molls, Michael

PY - 1985/4

Y1 - 1985/4

N2 - The average absorbed dose due to DNA-bound 3H in a cell nucleus was estimated by a Monte Carlo simulation for a model nucleus which was assumed to be spheroidal. The shape of the cell nucleus was found to be of minor importance in determining the average absorbed dose. The volume of the cell nucleus was the major dose-determining factor for cell nuclei which have the same DNA content and the same specific activity of DNA. This result was applied to estimating the accumulated dose in the cell nuclei of organs of young mice born from mother mice which ingested 3H-thymidine with drinking water during pregnancy. The values of dose-modifying factors for the accumulated dose due to DNA-bound 3H compared to the dose due to an assumed homogenous distribution of 3H in organ were found to be between about 2 and 6 for the various organs.

AB - The average absorbed dose due to DNA-bound 3H in a cell nucleus was estimated by a Monte Carlo simulation for a model nucleus which was assumed to be spheroidal. The shape of the cell nucleus was found to be of minor importance in determining the average absorbed dose. The volume of the cell nucleus was the major dose-determining factor for cell nuclei which have the same DNA content and the same specific activity of DNA. This result was applied to estimating the accumulated dose in the cell nuclei of organs of young mice born from mother mice which ingested 3H-thymidine with drinking water during pregnancy. The values of dose-modifying factors for the accumulated dose due to DNA-bound 3H compared to the dose due to an assumed homogenous distribution of 3H in organ were found to be between about 2 and 6 for the various organs.

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Estimation of absorbed dose in cell nuclei due to DNA-bound ³h

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