The Device For Studying The Electromagnetic Effects On The Vital Cells

The exposure to electromagnetic fields EMF has become an active area of biophysics research. Modern lifestyle exposes nearly all humans to EMF, particularly to man-made visible light. Prolonged exposure to EMF induces persist changes in weight and neuronal activity. However, the modulation of synaptic efficiency by EMFs in vivo is still unclear. The study focuses upon design, evaluation and investigation of a Linear Source Lamp (LSL) device. The LSL visible light irradiation issued for the bio-electromagnetic effects. The living organism, particularly in humans, can be affected adversely by highly coherent EMF. Twenty-seven mice were divided into 3 groups in addition to the sham and control group. The three groups were exposed to the visible field for different durations (5, 10, 15days). Every day they were exposed for 8 hours as a daily dosage. The exposure doses were produced by LSL neon lamps. The sham and control group was placed in an identical chamber with no electromagnetic field. After the exposure period,
mice were weighted daily. The exposure area on the bottom of cage was measured, evaluated and treated by the software SURFAR7 to determine the optimum area of irradiation as well as the intensity of the EMFs. On the basis of a detailed analysis of the present situation and experimental conditions, the number of recommended doses was chosen to prompt higher degree of electromagnetic bio-compatibility between these fields and the living human organism. This new scientific findings can be used to update human standard doses. Certain studies, because of their strength of evidence or because of the severity of the health out come under study, may be more likely to prompt a reevaluation of the science informing standards than others. Changes to standards or policies should be made after a proper assessment of the science case as a whole to ensure that the conclusion of the research in a given area is consistent.