Journal
SHOCK
Volume 50, Issue 2, Pages 226-232Publisher
LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1097/SHK.0000000000001007
Keywords
Hypothermia; infection; infrared thermometry; ROC curve; sepsis; survival
Funding
- National Institutes of Health NIGMS [1R01GM118895-01]
- BK and Betty Stevens Endowment
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Sepsis continues to be a major challenge for modern medicine. Several preclinical models were developed to study sepsis and each has strengths and weaknesses. The cecal slurry (CS) method is a practical alternative because it does not require surgery, and the infection can be dosed. However, one disadvantage is that the dosage must be determined for each CS preparation using survival studies. Our aim was to refine a survival protocol for the CS model by determining a premonitory humane endpoint that would reduce animal suffering. Mice become hypothermic in sepsis; therefore, we tested whether reductions in surface temperature (T-s), measured by noninvasive infrared thermometry, could predict eventual death. We injected 154 C57BL/6J mice with CS (0.9-1.8 mg/g) and periodically monitored T-s at the xiphoid process over 5 days. We used, as predictors, combinations of temperature thresholds (298 degrees C-318 degrees C) and times, postinjection (18-36 h). A receiver-operator curve, sensitivity, and specificity were determined. A Distress Index value was calculated for the threshold conditions. The optimum detection threshold (highest Youden index) was found at T-s <= 30.5 degrees C at 24 h (90% specific, 84% sensitive). This threshold condition reduced animal suffering by 41% while providing an accurate survival rate estimate. Using this threshold, only 13 of 154 mice would have died from sepsis; 67 would have been euthanized at 24 h, and only 7 of 154 would have been euthanized unnecessarily. In conclusion, using a humane endpoint of T-s <= 30.5 degrees C at 24 h accurately predicts mortality and can effectively reduce animal suffering during CS survival protocols.
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