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Heavy ion action on single cells: Cellular inactivation capability of single accelerated heavy ions

Authors :
Kost, M
Pross, H.-D
Russmann, C
Schneider, E
Kiefer, J
Kraft, G
Lenz, G
Becher, W
Source :
NASA. Ames Research Center, Minutes of the 12th Joint NASA(DARA-DLR Life Sciences Program Working Group Meeting.
Publication Year :
1994
Publisher :
United States: NASA Center for Aerospace Information (CASI), 1994.

Abstract

Heavy ions (HZE-particles) constitute an important part of radiation in space. Although their number is small the high amount of energy transferred by individual particles may cause severe biological effects. Their investigation requires special techniques which were tested by experiments performed at the UNILAC at the GSI (Darmstadt). Diploid yeast was used which is a suitable eucaryotic test system because of its resistance to extreme conditions like dryness and vacuum. Cells were placed on nuclear track detector foils and exposed to ions of different atomic number and energy. To assess the action of one single ion on an individual cell, track parameters and the respective colony forming abilities (CFA) were determined with the help of computer aided image analysis. There is mounting evidence that not only the amount of energy deposited along the particle path, commonly given by the LET, is of importance but also the spatial problem of energy deposition at a submicroscopical scale. It is virtually impossible to investigate track structure effects in detail with whole cell populations and (globally applied) high particle fluences. It is, therefore, necessary to detect the action of simple ions in individual cells. The results show that the biological action depends on atomic number and specific energy of the impinging ions, which can be compared with model calculations of recent track structure models.

Subjects

Subjects :
Life Sciences (General)

Details

Language :
English
Database :
NASA Technical Reports
Journal :
NASA. Ames Research Center, Minutes of the 12th Joint NASA(DARA-DLR Life Sciences Program Working Group Meeting
Publication Type :
Report
Accession number :
edsnas.19950026308
Document Type :
Report