Radiobiological Studies Using Synchrotron-produced Ultrasoft X-rays
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概要
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Ultrasoft X-rays have been extensively used to explore radiobiological mechanisms surrounding cell killing. These studies for the most part have been linked to a small number of X-ray energies. Recently, this field of study has been broadened by the availability of synchrotron-produced ultrasoft X-rays which can be produced at any desired energy. We have taken advantage of the University of Wisconsin Synchrotron to reexamine two fundamental radiobiological questions: Dose RBE vary with different ultrasoft X-ray energies? Dose the fraction of the nuclear volume exposed to equal total X-ray energy modify cell cytotoxicity? The first study focuses on the survival of Chinese hamster V79 and mouse C3H10T1/2 cells irradiated with synchrotron-produced 273 eV and 860 eV ultrasoft X-rays. These two energies, which are available by multilayer monochromatization of the synchrotron output spectrum, exhibit equal attenuation within living cells. Such an isoattenuating energy pair allows the direct examination of how biological effectiveness varies with the energy of the ultrasoft X-rays. In comparing survival results, we find similar biological effectiveness of these two energies for both the C3H10T1/2 and the V79 cells. These results are no consistent with previous findings of increasing RBE with decreasing ultrasoft X-ray energies. In addition, after correcting for mean nuclear dose based on measurements of cell thickness obtained with confocal microscopy, we find no significant differences in survival between the two ultrasoft X-ray energies and 250 kVp X-rays. These results suggest that RBE does not increase with decreasing energy of ultrasoft X-ray between 860 eV and 273 eV.
- 日本放射線影響学会の論文
著者
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Hill C
Department Of Radiation Oncology University Of Southern California
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Hill Colin
Department Of Radiation Oncology University Of Southern California
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GOULD MICHAEL
Department of Human Oncology, University of Wisconsin
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NELMS BEN
Medical Physics
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HILL COLIN
Human Oncology
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MACKAY JAMES
Medical Physics
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LINDSTROM MARY
Human Oncology
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MACKIE T.
Medical Physics
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DELUCA JR
Medical Physics
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Gould Michael
Department Of Oncology:human Oncology:medical Physics
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Gould Michael
University Of Wisconsin Department Of Oncology Human Oncology Medical Physics
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Gould Michael
Department Of Human Oncology University Of Wisconsin
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Hill Coline
Human Oncology
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