Thermoprotective mechanisms of irrigation during bipolar cautery

Bipolar cautery is routinely used in operations of the head and neck, as well as in other specialties, both for dissection and for achieving hemostasis. Whereas simultaneous irrigation is frequently used to minimize neuronal injury, its effectiveness has not been tested under controlled conditions. Our objectives in this study were to test the hypothesis that including irrigation during bipolar cautery is thermoprotective and to identify the mechanisms underlying the thermoprotective effect. The thermoprotective role of irrigation with bipolar cautery was tested in a rat model in which the sciatic nerve was exposed and a I-second stimulus at 40 or 20 watts was applied with bipolar cautery forceps placed directly on the nerve in the presence or absence of simultaneous irrigation. We used the Sciatic Functional Index as used to quantitate the degree of paresis induced. The results showed that simultaneous irrigation reduced the percentage of animals showing paresis. This effect was significant for animals exposed to 40- and 20-watt cautery. The mechanism for the reduction in the degree of paresis by irrigation could not be attributed to a lowering of the maximal temperature achieved after bipolar cautery. Instead, the thermoprotective mechanism of the irrigation involved an enhanced recovery to basal temperatures when measured at 15 seconds after nerve stimulation with 40 or 20 walk. Reducing the power from 40 watts to 20 watts did not significantly lessen the tissue temperature. The results of this study suggest that irrigation done simultaneously with bipolar cautery enhances temperature recovery to basal levels and plays a role in thermoprotection against the effects of cautery.