Dosimetry for a study of effects of 2.45‐GHz microwaves on mouse testis

Abstract

In order to determine the effects of microwave radiation on the testis, it is necessary to express the physical insult in animal studies in a way that can be replicated elsewhere and ultimately used as a basis for extrapolation to man. However, there is conflict — especially in chronic experiments — between the desire for precise dosimetry and the need to minimise alteration of the normal physiological functions of the animals. The compromise arrangement used in this study was to house the mice singly, in cages with limited food and water, and to irradiate them for up to 30 days (16 h/day) in an anechoic chamber. The only measurements taken routinely were of power density in the positions normally occupied by the cages. In addition, a series of absorption measurements was made in mouse carcasses: Whole‐body specific absorption rate (SAR); energy‐deposition patterns (determined thermographically); and local SAR in testis (using a miniature electric (E)‐field probe). It was concluded that the SAR in testis was considerably less than the whole‐body SAR. Exposure for 16 h at 50 mW/cm² elevated rectal but not testis temperature, thus demonstrating the ability of the conscious mouse to regulate the temperature of its testis.