Estimating rectal temperature in exercising horses in a competition environment using infrared thermal imaging

IF 0.6 Q3 VETERINARY SCIENCES

Comparative Exercise Physiology Pub Date : 2023-12-12 DOI:10.1163/17552559-20230026

D.J. Marlin, H. Reynolds, K. Mukai, K. Neil, G. Akerstrom

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引用次数: 0

Abstract

Short-term intense and or prolonged medium intensity exercise in conditions of moderate-high environmental temperature or temperature and humidity can result in moderate to marked hyperthermia. This in turn may result in decreased exercise capacity, earlier onset of fatigue and increased risk of falls or injury. Early identification of moderate-severe hyperthermia is important to allow appropriate intervention, either before, during or after exercise. Infra-red thermal imaging (IRT) allows measurement of horse surface temperature non-invasively, however it is generally considered to be unreliable in outdoor environments. Collection of pilot data suggested that this modality warranted further investigation. IRT Images were obtained from horses during training and competition at the 2019 Ready Steady Tokyo Olympic equestrian test event (Wet Bulb Globe Temperature [WBGT] > 28 °C), during and after the cross-country at the 2019 Burghley Horse Trials CCI 5* (WBGT 12-15 °C), the 2019 Adelaide International Horse Trials CCI 4* (WBGT ∼ 20 °C) and during the 2020 Tokyo Olympic Games (held in 2021; WBGT > 28 °C). A total of 87 paired hindquarter IRT images and rectal temperature measurements were obtained. When all data from all 4 events were pooled the bias and limits of agreement were −0.3 ± 1.1 °C (n = 87), i.e. IRT underestimated rectal temperature. When the data from Ready Steady Tokyo 2019 and Tokyo 2020 were combined as both events took place in similar thermal environmental conditions) the bias and limits of agreement were −0.1 ± 0.8 °C (n = 45). For 29 paired hindquarter thermal images, where a second image was obtained within 15 s, there was no significant difference between the mean of the first and second images (Image 1: 38.9 ± 0.9 °C versus Image 2: 38.7 ± 0.8 °C; ; n = 29). In conclusion, IRT imaging in environmental conditions of high temperature or high temperature and humidity may be useful in identifying horses with moderate to severe hyperthermia.

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利用红外热成像技术估算比赛环境中运动马匹的直肠温度

在中高环境温度或温湿度条件下，短期剧烈运动或长时间中等强度运动会导致中度到明显的高热。这反过来又可能导致运动能力下降、疲劳提前出现以及跌倒或受伤的风险增加。早期识别中度至重度高热非常重要，以便在运动前、运动中或运动后进行适当干预。红外热成像（IRT）可以无创测量马匹表面温度，但一般认为在室外环境中这种方法并不可靠。试验数据的收集表明，这种方法值得进一步研究。在 2019 年东京奥运会马术测试赛（湿球温度 [WBGT] > 28 °C）的训练和比赛期间、2019 年伯格利马术大赛 CCI 5*（WBGT 12-15 °C）的越野赛期间和赛后、2019 年阿德莱德国际马术大赛 CCI 4*（WBGT ∼ 20 °C）以及 2020 年东京奥运会（2021 年举行；WBGT > 28 °C）期间，对马匹进行了 IRT 图像采集。共获得 87 张成对的后臀部 IRT 图像和直肠温度测量值。将 4 项赛事的所有数据汇总后，偏差和一致性极限为 -0.3 ± 1.1 °C（n = 87），即 IRT 低估了直肠温度。如果将 Ready Steady Tokyo 2019 和 Tokyo 2020 的数据合并（因为这两项赛事的热环境条件相似），偏差和一致性限值为 -0.1 ± 0.8 °C（n = 45）。在 15 秒内获得第二张图像的 29 张成对后臀部热图像中，第一张和第二张图像的平均值没有显著差异（图像 1：38.9 ± 0.9 °C；图像 2：38.7 ± 0.8 °C；n = 29）。总之，在高温或高温高湿的环境条件下进行IRT成像可能有助于识别患有中度至重度高热症的马匹。

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来源期刊

Comparative Exercise Physiology VETERINARY SCIENCES-

CiteScore

1.50

自引率

11.10%

发文量

期刊介绍： ''Comparative Exercise Physiology'' is the only international peer-reviewed scientific journal specifically dealing with the latest research in exercise physiology across all animal species, including humans. The major objective of the journal is to use this comparative approach to better understand the physiological, nutritional, and biochemical parameters that determine levels of performance and athletic achievement. Core subjects include exercise physiology, biomechanics, gait (including the effect of riders in equestrian sport), nutrition and biochemistry, injury and rehabilitation, psychology and behaviour, and breeding and genetics. This comparative and integrative approach to exercise science ultimately highlights the similarities as well as the differences between humans, horses, dogs, and other athletic or non-athletic species during exercise. The result is a unique forum for new information that serves as a resource for all who want to understand the physiological challenges with exercise.