Thermophysiological consequences of whole body resonant RF exposure (100 MHz) in human volunteers

Abstract

Thermophysiological responses of heat production and heat loss were measured in seven adult volunteers (six males and one female, aged 31–74 years) during 45 min dorsal exposures of the whole body to 100 MHz continuous wave (CW) radio frequency (RF) energy. Three power densities (PD) (average PD = 4, 6, and 8 mW/cm²; whole body specific absorption rate [SAR] = 0.068 [W/kg]/[mW/cm²]) were tested in each of three ambient temperatures (T_a = 24, 28, and 31 °C), as well as in T_a controls (no RF). A standardized protocol (30 min baseline, 45 min RF or sham exposure, 10 min baseline) was used. Measured responses included esophageal and seven skin temperatures, metabolic heat production, local sweat rate, and local skin blood flow. No changes in metabolic heat production occurred under any test condition. Unlike published results of similar exposures at 450 and 2450 MHz, local skin temperatures, even those on the back that were irradiated directly, changed little or not at all during 100 MHz exposures. The sole exception was the temperature of the ankle skin, which increased by 3–4 °C in some subjects at PD = 8 mW/cm². During the 45 min RF exposure, esophageal temperature showed modest changes (range = −0.15 to 0.13 °C) and never exceeded 37.2 °C. Thermoregulation was principally controlled by appropriate increases in evaporative heat loss (sweating) and, to a lesser extent, by changes in skin blood flow. Because of the deep penetration of RF energy at this frequency, effectively bypassing the skin, these changes must have been stimulated by thermal receptors deep in the body rather than those located in the skin. Bioelectromagnetics 24:489–501, 2003. Published 2003 Wiley‐Liss, Inc.