Effect of beta-carotene oil and bee pollen on ion transport in rat brain slices following radiation-chemical exposure
TV Anan'eva, AI Dvoretskiĭ - Radiatsionnaia biologiia …, 1999 - europepmc.org
TV Anan'eva, AI Dvoretskiĭ
Radiatsionnaia biologiia, radioecologiia, 1999•europepmc.orgChronic combined exposure to ionizing radiation with dose of 0.25 Gy and cadmium
chloride or atrazine to be present in drinking water at five-fold Limited Permissible
Concentration (LPC) values led to the additively reduced intercellular K+ level in rat brain,
that was at first choice caused by the active ion transport disorders in the case of irradiation,
and by the changes in membrane permeability in the case of toxic loading. Applying of beta-
carotene oil and bee pollen both abolished radiation effects, but no chemical toxicant ones …
chloride or atrazine to be present in drinking water at five-fold Limited Permissible
Concentration (LPC) values led to the additively reduced intercellular K+ level in rat brain,
that was at first choice caused by the active ion transport disorders in the case of irradiation,
and by the changes in membrane permeability in the case of toxic loading. Applying of beta-
carotene oil and bee pollen both abolished radiation effects, but no chemical toxicant ones …
Chronic combined exposure to ionizing radiation with dose of 0.25 Gy and cadmium chloride or atrazine to be present in drinking water at five-fold Limited Permissible Concentration (LPC) values led to the additively reduced intercellular K+ level in rat brain, that was at first choice caused by the active ion transport disorders in the case of irradiation, and by the changes in membrane permeability in the case of toxic loading. Applying of beta-carotene oil and bee pollen both abolished radiation effects, but no chemical toxicant ones. Authors supposed the selective action of the observed drugs to be connected with antioxidant activities of them.
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