Serial Temperature Monitoring and Comparison of Rectal and Muscle Temperatures in Immobilized Free-Ranging Black Rhinoceros (Diceros bicornis)

Serial Temperature Monitoring and Comparison of Rectal and Muscle Temperatures in Immobilized Free-Ranging Black Rhinoceros (Diceros bicornis)

Control of body temperature is critical to a successful anesthetic outcome, particularly during field immobilization of wild animals. Hyperthermia associated with exertion can lead to serious and potentially life-threatening complications such as organ damage (including myopathy) and death. Methods...

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Bibliographic Details
Published in:Journal of zoo and wildlife medicine Vol. 43; no. 1; pp. 120 - 124
Main Authors: Morkel, Peter vdB, Miller, Michele, Jago, Mark, Radcliffe, Robin W, du Preez, Pierre, Olea-Popelka, Francisco, Sefton, Jennifer, Taft, Arthur, Nydam, Daryl, Gleed, Robin D
Format: Journal Article
Language:English
Published: United States American Association of Zoo Veterinarians 01-03-2012
Subjects:
Ambient temperature
Animals
Black rhinoceros
Body temperature
Body Temperature - physiology
CASE SERIES/REPORTS
Diceros bicornis
Hyperthermia
Immobilization - veterinary
muscle temperature
Muscle, Skeletal - physiology
Muscles
Perissodactyla - physiology
Physical Exertion
rectal temperature
Temperature
Temperature measurement
Wild animals
Wildlife damage management
Zoos
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Summary:Control of body temperature is critical to a successful anesthetic outcome, particularly during field immobilization of wild animals. Hyperthermia associated with exertion can lead to serious and potentially life-threatening complications such as organ damage (including myopathy) and death. Methods for monitoring core body temperature must accurately reflect the physiologic status of the animal in order for interventions to be effective. The goal of this preliminary study was to compare serial rectal and muscle temperatures in field-immobilized black rhinoceros (Diceros bicornis) and evaluate a possible association. Twenty-four free-ranging black rhinoceros were immobilized between February and March of 2010 in Ethosha National Park, Namibia. Pairwise comparisons showed a correlation of 0.73 (95% CI; 0.70–0.75) between rectal and muscle temperature measurements. Results from a multivariable model indicate that muscle temperature readings were, on average, 0.46°C (95% CI; 0.36–0.57°C) higher than rectal temperatures while adjusting for repeated measurements on the same rhinoceros, effect of duration of immobilization, and effect of ambient temperature on rhinoceroses' temperature readings. As immobilization time increased, muscle and rectal temperature values within an individual rhinoceros tended to equilibrate. The overall temperatures decreased by an average of 0.00059°C/min (95% CI; −0.0047 to −0.0035°C/min; P = 0.779). As the ambient temperature at time of immobilization increased by 1°C, the average rhinoceros temperature increased by 0.09°C (95% CI; 0.06–0.11°C, P < 0.0001). Higher body temperature creates a potential for cellular damage leading to complications that include myopathy. Methods for monitoring rectal, muscle, and ambient temperatures should be incorporated into anesthetic monitoring protocols for large ungulates, particularly under field conditions.
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ISSN:1042-7260
1937-2825
DOI:10.1638/2011-0009.1