Real‐time measurement of RFR energy distribution in the macaca mulatta head

Abstract

Temperature increases due to absorption of 1.2 GHz, CW, 70 mW/cm², radio frequency (RF) energy, were measured in 3.3‐cm‐radius homogeneous muscle‐equivalent spheres, M. mulatta cadaver heads (both detached from and attached to the body) and living, anesthetized M. mulatta heads. Temperatures were measured with a Vitek, Model 101 Electrothermia Monitor and temperature distributions were compared to theoretical predictions from a thermal‐response model of a simulated cranial structure. The results show that the thermal response model accurately predicts the temperature distribution in muscle‐equivalent spheres, the distribution of temperature in detached M. mulatta heads when exposed from the back of the head, and the distribution of temperature in attached M. mulatta cadaver heads for animals oriented with body parallel to the H‐field. The temperature distribution in the detached M. mulatta heads varies markedly with exposure orientation, ie, facing forward, backward, or to the side. The orientation of the M. mulatta cadaver body significantly affects the temperature distribution in the head ‐ with H‐field orientation showing high, nonuniform values, and E‐field orientation showing low, uniform values. In live animals blood flow produces a significant short‐term effect on the temperature distribution in the midbrain, but not the cortex. Midbrain temperatures are both significantly higher and lower than the comparable cadaver measurements, depending on location.