[ effects of mobile phone waves [940MHz] on embryonic development of hematopoiesis system in Balb/C mouse]

Today, increasing usage of microwaves generator sets such as cell phones, have been caused much worry related to their waves effects on human health. In this research, simulated waves effects of cell phones with frequency of 940MHz have been studied on hematopoiesis system of Balb/C mouse embryo. In an experimental study pregnant mice [Balb/C] were used as a laboratory model. The mice were divided into control, sham-exposed and experimental groups. The experimental groups were exposed to the waves on the 8[th] day of embryonic development for 4 or 10 days [everyday for 4 hours]. At the end of treatment period, the experimental samples, sham-exposed and control related to morphology and histology studies of hematopoiesis organs were done by light microscope. Using t-test and Mann-Whitney test, the quantitative data were analyzed. Morphologic study of embryos which were 18 days old didn't show any abnormality but the weight of experimental embryos [1.263 +/- 0.017 gr] compared with sham-exposed [1.268 +/- 0.006 gr] showed significant increase [P<0.05]. The study of tissue sections in embryos which were 12 days old didn't show significant change in tissue and cellular position of yolk sac of experimental samples as compared with control group. Also, tissue studies of embryos which were 18 days old didn't show any changes in general structure of liver, spleen, marrow bone but the number of Megakaryocytes of spleen and erythrocytes which had not nucleus in bone marrow of experimental samples showed significant increase as compared with the sham-exposed. The number of erythrocytes in liver which had not nucleus also showed significant increase as compared with the sham-exposed [P<0.05]. Waves of cell phones with frequency of 940MHz don't affect on general structure of liver, spleen, bone marrow of Balb/C embryos but it causes significant changes in the number of cells of these tissues

Effect of gamma radiation on fetal haemopoiesis of mouse.

Effect of a single acute exposure to gamma-rays during the late fetal period on the fetal haemopoietic tissue of mouse was studied. Pregnant Swiss albino mice were exposed to 1 Gy of gamma-rays on day 17 post coitus (late fetal period) and 24 hr after exposure the fetuses were observed for changes in the liver weight, cytogenetic damage in liver cells by micronucleus (MN) induction and stem cell survival by spleen colony (CFU-S) assay. Irradiation resulted in a significant (P < 0.01) decrease in fetal liver weight. A significant (P < 0.001) increase in MN count was observed after exposure, while CFU-S displayed a significant (P < 0.001) reduction in the cell survival as compared to the sham-treated control. These results demonstrate the high susceptibility of mouse fetal haemopoietic system to radiation.

Post-exposure radioprotection by Chlorella vulgaris (E-25) in mice.

Oral administration of an algal mutant C. vulgaris E-25, 1 hr before or immediately after exposure to sublethal gamma-rays increased the number of endogenous spleen colony forming units (E-CFU). The magnitude of radioprotection was dependent on both, the dose of C. vulgaris fed and the time of administration. An optimal E-CFU was observed when 500 mg/kg body wt. of C. vulgaris was fed 1 hr before or immediately after irradiation. Significant recovery was observed in the number of bone marrow cells and the spleen weight. LD50/30 for Chlorella pre- and post-treated mice were 8.66 and 9.0 Gy, respectively compared to the control value of 7.8 Gy. The dose reduction factor (DRF) was 1.11 and 1.15 for pre-treated and post-treated mice respectively.