Physiological (osmotic fragility) and morphological effects on red blood cells: action of phytic acid and stannous fluoride.

Phytic acid occurs in foods derived from plants. We have investigated the possibility that phytic acid and stannous fluoride are capable of altering the physiological properties (osmotic fragility) and morphological properties of red blood cells (RBC). Osmotic fragility was unchanged by the presence of phytic acid and stannous fluoride in the studied concentrations, but RBC morphology was modified in the presence of the studied substances. In conclusion, the alterations to RBC morphology were not sufficient to promote modifications in osmotic fragility. Our results suggest that the chelating properties of phytic acid could be responsible for the observed effects.

Evaluation of the effect of mitomycin-C on the bioavailability of technetium-99m-labelled sodium pyrophosphate in mice.

We have reported that drugs alter the biodistribution of radiopharmaceuticals used in diagnostic imaging in nuclear medicine. Knowledge of such altered biodistribution is important in making diagnostic from scintigraphy. Mitomycin-C is used as component of many chemotherapeutic regimens to treat different tumors. The biological activities of mitomycin-C can be explained by its ability to inhibit deoxyribonucleic acid synthesis. Since patients on chemotherapeutic treatment can be submitted to nuclear medicine procedures, we studied the mitomycin-C effect on the bioavailability of the technetium-99m-labelled sodium pyrophosphate (9mTc-PYP) using an animal model. Mitomycin (0.45 mg) was administered by ocular plexus way Balb/c mice. One hour after the last dose, 99mTc-PYP (7.4 MBq) was administered and after 0.5 hr the animals (n = 15) were rapidly sacrificed. The organs were isolated, the radioactivity counted in a well counter and the percentage of radioactivity (%ATI) calculated. The results have shown that in the treated animals the %ATI has been decreased in spleen, thymus, heart and brain and increased in lung, liver and bone. The effect of this chemotherapeutic drug on the 99mTc-PYP biodistribution was statistically significant (Wilcoxon test, p < 0.05) and it could be explained by the metabolization or therapeutic action of mitomycin-C.