The objective of this study was to determine the thermal distribution
and concomitant cardiovascular changes produced by whole-body exposure
of ketamine-anesthetized rats to radiofrequency radiation of millimet
er wave (MMW) length. Rats (n = 13) were implanted with a flow probe o
n the superior mesenteric artery and with a catheter in the carotid ar
tery for the measurement of arterial blood pressure. Temperature was m
easured at five sites: left (T-sl) and right subcutaneous (sides towar
d and away from the MMW source, respectively), colonic (T-cl), tympani
c, and tail. The animals were exposed until death to MMW (35 GHz) at a
power density that resulted in a whole-body specific absorption rate
of 13 W/kg. During irradiation, the T-sl increase was significantly gr
eater than the T-c increase. Heart rate increased throughout irradiati
on. Mean arterial pressure (MAP) was well maintained until T-sl reache
d 42 degrees C, at which point MAP declined until death. Mesenteric va
scular resistance tended to increase during the early Stages of irradi
ation but began to decrease at T-sl greater than or equal to 41 degree
s C. The declines in both mesenteric vascular resistance and MAP began
at T-c < 37.5 degrees C; death occurred at T-c = 40.3 +/- .3 degrees
C and T-sl = 48.0 +/- .4 degrees C. These data indicate that circulato
ry failure and subsequent death may occur when skin temperature is rap
idly elevated, even in the presence of relatively normal T-c.