Local cooling does not prevent hyperalgesia following burn injury in humans
2002
One of the oldest methods of pain relief following a burn injury is local application of ice or cold water. Experimental data indicate that cooling may also reduce the severity of tissue injury and promote wound healing, but there are no controlled studies in humans evaluating the anti-inflammatory or anti-hyperalgesic potential of early cooling after thermal injury. Twenty-four healthy volunteers participated in this randomized, single-blinded study. Following baseline measurements, which included inflammatory variables (skin temperature, erythema index) and sensory variables (thermal and mechanical detection thresholds, thermal and mechanical pain responses, area of secondary hyperalgesia), first degree burn injuries were induced on both calves by contact thermodes (12.5 cm(2), 47 degrees C for 7 min). Eight minutes after the burn injury, contact thermodes (12.5 cm(2)) were again applied on the burns. One of the thermodes cooled the burn (8 degrees C for 30 min) whereas the other thermode was a non-active dummy on the control burn. Inflammatory and sensory variables were followed for 160 min after end of the cooling procedure. The burn injury induced significant increases in skin temperature (P 0.5), erythema (P>0.9), heat pain threshold (P>0.5), thermal or mechanical pain responses (P>0.5) or the development of secondary hyperalgesia (P>0.4) compared with the control burn. However, a significant, albeit transient, increase in cold detection threshold was observed on the cooled burn side (P<0.0001). In conclusion, cooling with 8 degrees C for 30 min following a first degree burn injury in humans does not attenuate inflammatory or hyperalgesic responses compared with a placebo-treated control burn.
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