The Influence of Split Doses of γ-Radiation on Human Erythrocytes | Zendy

R. Koziczak | Zendy; Marta Gonciarz | Zendy; Anita Krokosz | Zendy; Zofia SzwedaLewandowska | Zendy

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The Influence of Split Doses of γ-Radiation on Human Erythrocytes

Author(s) -

R. Koziczak,

Marta Gonciarz,

Anita Krokosz,

Zofia SzwedaLewandowska

Publication year - 2003

Publication title -

journal of radiation research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.643

H-Index - 60

eISSN - 1349-9157

pISSN - 0449-3060

DOI - 10.1269/jrr.44.217

Subject(s) - hemolysis , chemistry , hematocrit , irradiation , radiochemistry , erythrocyte membrane , isotonic , methemoglobin , phosphate buffered saline , biophysics , membrane , chromatography , biochemistry , hemoglobin , biology , immunology , medicine , endocrinology , physics , nuclear physics

Human erythrocyte suspensions in an isotonic Na-phosphate buffer, pH 7.4, of hematocrit of 2% were exposed under air to gamma radiation at a dose rate of 2.2 kGy. Erythrocytes were irradiated with single doses, and identical doses split into two fractions with an interval time of 3.5 h between following exposures. The obtained results indicated that the irradiation of enucleated human erythrocytes with split doses caused a reduction of hemolysis (2.4 times), a decrease in the level of damage to membrane lipids and the contents of MetHb, compared with identical single doses. However, the splitting of radiation doses did not change the level of damage to the membrane proteins, as was estimated with a maleimide spin label. The obtained results suggest that a decrease in the level of damage to lipids was related to a decrease in hemolysis.

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