The importance of tail temperature monitoring during tail‐flick test in evaluating the antinociceptive action of volatile anesthetics

Background:  Tail‐flick (TF) latency can be influenced by tail‐skin temperature (TT), and treatments that raise TT can mimic hyperalgesia on a TF test. As volatile anesthetics can raise TT via heat redistribution, their antinociceptive action can be hidden or obscured in a TF test. We tested the hypothesis that TT monitoring improves the efficiency of TF tests in evaluating the antinociceptive action of volatile anesthetics. Methods:  The relationship between TT and TF latency was first explored under varied TTs in 12 rats. Then, TT and TF latency were measured before and during isoflurane exposure (1.2%). In the low temperature group (n=6), rats were prewarmed mildly to increase TT during isoflurane exposure. In the high temperature group (n=6), rats were prewarmed enough to prevent a TT increase during isoflurane exposure. Results:  There was a highly significant correlation between TT and TF latency, that is, TF latency decreased as TT increased. In the low temperature group, there was a significant increase in TT during isoflurane exposure, while an increase in TF latency did not reach statistical significance. Tail‐flick latency corrected by a change in TT showed a significant increase. In the high temperature group, TF latency increased significantly during isoflurane exposure without an increase in TT. Conclusions:  Isoflurane inhalation can induce an increase in TT, which can obscure its antinociceptive action as evaluated by a TF test. Monitoring TT during a TF test is important to efficiently evaluate the antinociceptive action of volatile anesthetics.