The Effect of Corrective and Preventive Electromagnetic Radiation Modulated by Biostructures on the Course of Acute Insulin Insufficiency in Rats
The objective of the work is to study the characteristics of the course of experimental diabetes mellitus in rats in corrective and preventive electromagnetic radiation effect modulated by the preparations of pancreatic and splenic tissues of a newborn rat.
Materials and Methods. Electromagnetic radiation was generated by means of helium-neon laser according to Fabry—Perot interferometer. Experimental diabetes mellitus was simulated by intraabdominal administration of alloxan in subtoxical dose of 200 mg/kg of body weight.
Results. The development of alloxan diabetes in control and placebo groups led to animals’ death on the 3rd day since alloxan had been administered. Survival rate of animals in these groups was 10—30%. Corrective effect by modulated electromagnetic radiation ensured 75% survival rate in animals when alloxan was administered in subtoxical doses, and resulted in decline in glucose level in the blood of damaged animals and regeneration of pancreatic cells. The preventive action by modulated electromagnetic radiation in animals contributed to developing resistance to high doses of alloxan in animals, and had cytoprotective effect on pancreatic cells, and as the result, there was no acute insulin insufficiency in experimental animals.
