Circularly polarized, sinusoidal, 50 Hz magnetic field exposure does not influence plasma testosterone levels of rats.

We exposed rats to circularly polarized 50 Hz magnetic fields to determine if plasma testosterone concentration was affected. Previous experiments indicate that magnetic fields suppress the nighttime rise in melatonin, suggesting that other neuroendocrine changes might occur as well. Male Wistar-King rats were exposed almost continuously for 6 weeks to magnetic flux densities of 1, 5, or 50 microT. Blood samples were obtained by decapitation at 12:00 h and 24:00 h. Plasma testosterone concentration showed a significant day-night difference, with a higher level at 12:00 h when studied in July and December, but night difference, with a higher level at 12:00 h when studied in July and December, but the day-night difference disappeared when concentrations were studied in April. In three experiments, magnetic field exposure had no statistically significant effect on plasma testosterone levels compared with the sham-exposed groups. These findings indicate that 6 weeks of nearly continuous exposure to circularly polarized, 50 Hz magnetic fields did not change plasma testosterone concentration in rats.

[1]  Masamichi Kato,et al.  Effects of exposure to a circularly polarized 50-Hz magnetic field on plasma and pineal melatonin levels in rats. , 1993, Bioelectromagnetics.

[2]  T. Shigemitsu,et al.  50-Hz magnetic field exposure system for small animals. , 1993, Bioelectromagnetics.

[3]  A. Lacroix,et al.  Daily and seasonal variations in plasma LH and testosterone concentrations in the adult male hedgehog (Erinaceus europaeus). , 1989, Journal of reproduction and fertility.

[4]  B. Goecke,et al.  Seasonal and diurnal changes of prostatic androgen receptor and circulating testosterone in young mature rats , 1988, Research in experimental medicine. Zeitschrift fur die gesamte experimentelle Medizin einschliesslich experimenteller Chirurgie.

[5]  N. Zisapel,et al.  N-(3,5-dinitrophenyl)-5-methoxytryptamine, a novel melatonin antagonist: effects on sexual maturation of the male and female rat and on oestrous cycles of the female rat , 1988 .

[6]  L. Tamarkin,et al.  Melatonin: a coordinating signal for mammalian reproduction? , 1985, Science.

[7]  R D Phillips,et al.  Endocrinological effects of strong 60-Hz electric fields on rats. , 1981, Bioelectromagnetics.

[8]  R. Reiter The pineal and its hormones in the control of reproduction in mammals. , 1980, Endocrine reviews.

[9]  S. W. Chan,et al.  Testicular metabolism and serum testosterone in aging male rats. , 1977, Endocrinology.

[10]  Liu Cc,et al.  FURTHER EVIDENCE OF INHERENT TESTICULAR RHYTHMS IN THE LABORATORY RAT , 1973 .