Abstract
Equipment was designed and fabricated for uniformly thawing frozen canine kidneys using single-frequency electromagnetic radiation. Complete and uniform warming of frozen kidneys from −70 to +14 °C over periods ranging from 1.5 to 4.5 min was achieved without “cooking” or experiencing thermal runaway. Dielectric measurements of renal slices (medulla and cortex) were performed as a function of temperature at a frequency of 918 MHz for a Me 2SO cryoprotectant concentration of 5% (0.7 M). Results of these measurements were then employed as an input to analytical computer models which were used to predict the internal field intensities and power distribution results for both frozen and thawed kidneys. From these predictions, a 918-MHz EM illuminator for thawing canine kidneys was designed and fabricated. Twenty-seven kidneys were thawed using this illumination system. Of these, excellent uniformity of thawing was achieved for 17 kidneys, good uniformity for 8 kidneys, and for only 2 kidneys was thawing uniformity fair to poor.
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