D Barlas1, C S Homan, H C Thode. 1. Department of Emergency Medicine, University Medical Center at Stony Brook, State University of New York, USA.
Abstract
STUDY OBJECTIVE: To compare the tissue-cooling efficiency of external cryotherapy with and without adjunctive compression. METHODS: We conducted an experimental repeated-measures study in which each of the 11 anesthetized subject dogs served as its own control. A chemical instant cold pack was applied to each subject's ventral thighs. One pack was held in position by gravity, and the other was compressed against the musculature with a tubular elastic wrap. Baseline and subsequent temperature measurements were taken every 10 minutes for 1 hour with the use of an IM temperature probe percutaneously inserted into each subject's hind legs. RESULTS: IM temperatures were not significantly different at baseline and were coldest at 20 minutes; they increased slowly thereafter. The recorded temperature was lower under the compressed cold pack (P = .003), and changes over time for both groups were also significant (P = .005). The instantaneous temperature difference at 10, 30, 40, 50, and 60 minutes was also significant. CONCLUSION: Externally applied instant cold packs in a dog model caused local tissue hypothermia that peaked by 20 minutes, persisted for at least 1 hour, and was significantly augmented by adjunctive compression. Further research is needed to evaluate the clinical efficacy and safety of these interventions in the management of acute soft-tissue injuries.
STUDY OBJECTIVE: To compare the tissue-cooling efficiency of external cryotherapy with and without adjunctive compression. METHODS: We conducted an experimental repeated-measures study in which each of the 11 anesthetized subject dogs served as its own control. A chemical instant cold pack was applied to each subject's ventral thighs. One pack was held in position by gravity, and the other was compressed against the musculature with a tubular elastic wrap. Baseline and subsequent temperature measurements were taken every 10 minutes for 1 hour with the use of an IM temperature probe percutaneously inserted into each subject's hind legs. RESULTS: IM temperatures were not significantly different at baseline and were coldest at 20 minutes; they increased slowly thereafter. The recorded temperature was lower under the compressed cold pack (P = .003), and changes over time for both groups were also significant (P = .005). The instantaneous temperature difference at 10, 30, 40, 50, and 60 minutes was also significant. CONCLUSION: Externally applied instant cold packs in a dog model caused local tissue hypothermia that peaked by 20 minutes, persisted for at least 1 hour, and was significantly augmented by adjunctive compression. Further research is needed to evaluate the clinical efficacy and safety of these interventions in the management of acute soft-tissue injuries.