Comments on “effects of 60 Hz electric and magnetic fields on the development of the rat cerebellum,” by Gona et al.

Ramirez et a1 (1983) reported reduced egg laying by Drosophilu rnelunoguster and reduced survival of those eggs to adulthood when adult flies were exposed to magnetic fields. In a similar study, no effects from exposures of Drosophilu to 1-mT, 60-Hz magnetic fields were found.

The snouts of rats were placed in a 60-Hz electric field at an unperturbed field strength of 50 kV/m. A count of the number of vibrissae that moved in the field was made on a series of rats over a number of days where the laboratory humidity varied from 25% to 48%. The number observed to vibrate fe

The effects of 50 Hz sinusoidal electric currents and magnetic fields on the Gram-positive skin bacterium Propionibacterium acnes were investigated. Intracellular free calcium ([Ca 2 ] i ), intracellular pH (pH i ), and cell viability were examined, based on their relevance to ELF field studies and

## Abstract We evaluated humoral and cellular functions of the immune system of Swiss‐Webster mice exposed to 60‐Hz electric fields at 100 kV/m. No significant differences were observed in primary antibody response to keyhole limpet hemocyanin (precipitating antibody levels) between exposed (30 or

We have previously reported that exposing the vegetative plasmodia stage of Physurum polycephulum to either individual or simultaneously applied electric and magnetic fields (45-75 Hz, 0.14-2.0 G, and 0.035-0.7 Vlm) lengthens their mitotic cycle, depresses their rate of reversible shuttle streaming,