Peer-reviewed veterinary case report
How to measure cat body temperature: axillary, ear, or rectal
By Smith, Victoria A et al.·Published in Journal of feline medicine and surgery·2015·Small Animal Hospital, United Kingdom·View original on PubMed →
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Original publication title: Comparison of axillary, tympanic membrane and rectal temperature measurement in cats.
- Species:
- cat
Plain-English summary
A study looked at how well different methods of measuring temperature work in cats. Researchers found that most cats tolerated taking their temperature from the armpit (axillary temperature) better than from the ear (tympanic membrane temperature) or rectally. In fact, 90% of cats were fine with the armpit method, while only 53% tolerated the rectal method. When rectal temperature couldn't be taken, the armpit method was recommended as it provided more accurate readings and was less stressful for the cats.
People also search for: cat temperature measurement methods · why is my cat's temperature important · how to take a cat's temperature · cat ear temperature vs rectal temperature
Abstract
OBJECTIVES: Rectal temperature (RT) is routinely used to assess body temperature in cats but has limitations and can be poorly tolerated. Axillary temperature (AT) and tympanic membrane temperature (TMT) are reported alternatives. This study aimed to determine the differences between RT and AT, and between RT and TMT in cats. Additional aims were to examine the effect of environmental and patient factors on these differences and to assess patient tolerance to each technique. METHODS: AT, TMT and RT were measured in immediate succession. Measurement order was randomised, as was the choice of left or right axilla and tympanic membrane. A digital thermometer and a veterinary infrared ear thermometer were used. The subjective tolerance of each procedure was recorded. RESULTS: One hundred and fifty cats were included. Significantly more conscious cats were tolerant of AT (90.6%) than TMT (81.2%) and RT (53.0%). The rectal-axillary temperature difference ranged from -1.2°C to 1.4°C (median 0.1°C) and was within ± 0.5°C in 78.0% of cats. On multivariable analysis the difference was larger in overweight cats, neutered cats, cats in which the right axilla was used and as the RT increased. The rectal-tympanic membrane temperature difference ranged from -1.6°C to 3°C (median -0.3°C) and was within ± 0.5°C in 51.3% of cats, significantly fewer than for AT (P <0.001). The rectal-tympanic membrane temperature difference increased as the RT increased. CONCLUSIONS AND RELEVANCE: TMT and AT should not be used interchangeably with RT in cats. When RT measurement is not possible, AT is recommended over TMT as it is better tolerated and significantly fewer cats had clinically unacceptable differences (>0.5°C). AT may more closely reflect RT in normal or underweight cats than it does in overweight cats.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/25600082/