Abstract
OF1 mice were chronically exposed to a 50‐Hz sinusoidal East–West magnetic field 15 µT (rms), in order to evaluate the blood coagulation variations related to the effect of this nonionizing radiation. Mating and pregnancy of ancestors (first generation), and birth, lactation, and development of second‐generation female mice until adulthood took place in the experimental field. A global blood coagulation study of both control and exposed 14‐ to 15‐week‐old and 50‐ to 52‐week‐old, second‐generation females was carried out. Plasma calcium content was determined by atomic absorption spectrophotometry. Different steps of blood coagulation were studied by thromboelastography (TEG) in whole blood (WB), platelet‐rich plasma (PRP), and platelet‐poor plasma (PPP). A significant decrease (approximately 34.5%) of calcium concentration was detected with aging; however, no change was induced by medium‐term or long‐term exposure to extremely low frequency magnetic field (ELF‐MF). Medium‐term exposure could not be related to noticeable changes in global coagulation. However, a great deterioration of fibrin clot formation in mature exposed female mice was detected as a result of the long‐term exposure that was strengthened by aging. These deficiencies seemed to be compensated by the discrete, although statistically not significant, decrease of platelet counts and the significant decrease of blood cells' mean corpuscular volume associated to ELF‐MF exposure of 50‐Hz, 15 µT. Consequently, whole blood TEG values of mature exposed female mice were similar to those from the young control group. In view of the obtained results, further studies on variations associated with ELF‐MF exposure in different coagulation parameters will be necessary.