S. I. Druzhinin scite author profile

Background and aims: Cosmic radiation is one of the main hazards for manned space exploration. Uncertainty in radiation risk estimates for crews of long-term missions are very high, and direct biological measurements are necessary. We measured chromosomal aberrations in peripheral blood lymphocytes from 33 cosmonauts involved in space missions during the past 11 years. Methods: Blood lymphocytes from the cosmonauts were stimulated to grow in vitro and were harvested at their first mitosis. Slides were either stained with Giemsa stain for dicentrics analysis, or painted with whole-chromosome DNA probes for translocation analysis (FISH). Results: A statistically significant increase in the yield of chromosomal aberrations was measured following long-term space missions in lymphocytes from cosmonauts at their first flight. No significant changes in aberration frequencies were observed for short-term taxi flights. The increase in long-term missions was consistent with the values calculated from physical dosimetry data. However, for cosmonauts involved in two or more space flights, the yield of interchromosomal exchanges was not related to the total duration of space sojourn or integral absorbed dose. Indeed, the yield of aberrations at the end of the last mission was generally in the range of background frequencies measured before the first mission. Conclusions: Chromosome aberration dosimetry can detect radiation damage during space flight, and biological measurements support the current risk estimates for space radiation exposure. However, for cosmonauts involved in multiple space missions the frequency of chromosomal aberrations is lower than expected, suggesting that the effects of repeated space flights on this particular endpoint are not simply additive. Changes in the immune system in microgravity and/or adaptive response to space radiation may explain the apparent increase in radioresistance after multiple space flights.

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Fast Internal Conversion, Dual Fluorescence and Intramolecular Charge Transfer in 9-Cyano-10-(Dimethylamino)Anthracene#

Druzhinin¹,

Demeter²,

Niebuer³

et al. 1999

Res. Chem. Intermed.

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Modeling past and present activity of a subarctic hydrothermal system using O, H, C, U and Th isotopes

Малов

Bolotov

Pokrovsky

et al. 2015

Applied Geochemistry

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Planar and twisted intramolecular charge transfer states of the excited proton transfer products of aminocoumarins

Druzhinin

Bursulaya

Uzhinov

1995

Journal of Photochemistry and Photobiology A: Chemistry

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S. I. Druzhinin

Recent advances in the chemistry of α,β-unsaturated trifluoromethylketones

Chromosome aberration dosimetry in cosmonauts after single or multiple space flights

Fast Internal Conversion, Dual Fluorescence and Intramolecular Charge Transfer in 9-Cyano-10-(Dimethylamino)Anthracene#

Modeling past and present activity of a subarctic hydrothermal system using O, H, C, U and Th isotopes

Planar and twisted intramolecular charge transfer states of the excited proton transfer products of aminocoumarins

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