Validity and reproducibility of the CALERA Research Sensor to estimate core temperature at different intensities of a cycling exercise in the heat

IF 2.9 2区生物学 Q2 BIOLOGY

Journal of thermal biology Pub Date : 2024-07-01 DOI:10.1016/j.jtherbio.2024.103907

William Martins Januário , Natália Franciele Lessa , Ana Júlia de Oliveira Schittine , Emille Rocha Bernardino de Almeida Prata , João Carlos Bouzas Marins , Antônio José Natali , Samuel Penna Wanner , Thales Nicolau Prímola-Gomes

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Abstract

Recent heatwaves have highlighted the importance of accurate and continuous core temperature (T_CORE) monitoring in sports settings. For example, accentuated rises in T_CORE caused by physical exercises under environmental heat stress increase the risk of heat illnesses. Thus, using valid and reproducible devices is essential to ensure safe sports practice. In this study, we assessed the validity and reproducibility of the Calera Research Sensor (CRS) in estimating the T_CORE of male and female participants during cycling exercise in a hot environment. Seven male (age: 36.2 ± 10.1 years) and eight female cyclists (age: 30.1 ± 5.0 years) underwent two identical cycling trials in a dry-bulb temperature of 32 °C and relative humidity of 60%. The protocol consisted of an initial 10-min rest followed by a 60-min exercise comprising 10 min at 20%, 25 min at 55%, and 25 min at 75% of maximal aerobic power, and an additional 25 min of post-exercise recovery. T_CORE was recorded simultaneously every minute using a gastrointestinal capsule (T_Gi) and the CRS (T_SENSOR). Bland–Altman analysis was performed to calculate bias, upper (LCS) and lower (LCI) concordance limits, and the 95% confidence interval (95%CI). The maximum acceptable difference between the two devices was predetermined at ±0.4 °C. A mixed linear model was used to assess the paired differences between the two measurement systems, considering the participants, trials, and environmental conditions as random effects and the cycling stages as fixed effects. An intra-class correlation coefficient (ICC) of 0.98 was recorded when analyzing data from the entire experiment. A non-significant bias value of 0.01 °C, LCS of 0.38 °C, LCI of −0.35 °C, and CI95% of ±0.36 °C were found. When analyzing data according to the participants’ sex, CRS reproducibility was high in both sexes: ICC values of 0.98 and 0.99 were reported for males and females, respectively. CI95% was 0.35 °C in experiments with males and 0.37 °C with females, thereby falling within the acceptable margin of difference. Therefore, CRS was considered valid (compared to T_Gi) and reproducible in estimating T_CORE in both sexes at various intensities of cycling exercise in the heat.

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用 CALERA 研究传感器估测高温下不同强度骑车运动的核心体温的有效性和可重复性。

最近的热浪突显了在运动环境中准确、持续监测核心体温（TCORE）的重要性。例如，在高温环境下进行体育锻炼会导致核心温度急剧上升，从而增加患热病的风险。因此，使用有效且可重复的设备对于确保安全的体育锻炼至关重要。在本研究中，我们评估了 Calera 研究传感器（CRS）在高温环境下估计男女参与者骑自行车运动时的 TCORE 的有效性和可重复性。七名男性（年龄：36.2 ± 10.1 岁）和八名女性（年龄：30.1 ± 5.0 岁）自行车运动员在干球温度为 32 °C、相对湿度为 60% 的环境中进行了两次相同的自行车试验。试验方案包括最初休息 10 分钟，然后进行 60 分钟的运动，其中 10 分钟为最大有氧功率的 20%，25 分钟为最大有氧功率的 55%，25 分钟为最大有氧功率的 75%，以及额外的 25 分钟运动后恢复。使用胃肠胶囊（TGi）和 CRS（TSENSOR）每分钟同时记录 TCORE。采用 Bland-Altman 分析法计算偏差、一致性上限 (LCS) 和下限 (LCI) 以及 95% 置信区间 (95%CI)。两个设备之间可接受的最大差异预先设定为 ±0.4°C。采用混合线性模型评估两种测量系统之间的配对差异，将参与者、试验和环境条件视为随机效应，将骑行阶段视为固定效应。在分析整个实验的数据时，类内相关系数（ICC）为 0.98。偏差值为 0.01 °C，LCS 为 0.38 °C，LCI 为 -0.35 °C，CI95% 为 ±0.36 °C。根据参与者的性别进行数据分析时，男女参与者的 CRS 重现性都很高：男性和女性的 ICC 值分别为 0.98 和 0.99。男性实验的 CI95% 为 0.35 °C，女性为 0.37 °C，因此均在可接受的差异范围内。因此，CRS 被认为是有效的（与 TGi 相比），并且在高温下进行不同强度的骑车运动时，在估算男女的 TCORE 方面具有可重复性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of thermal biology 生物-动物学

CiteScore

5.30

自引率

7.40%

发文量

196

审稿时长

14.5 weeks

期刊介绍： The Journal of Thermal Biology publishes articles that advance our knowledge on the ways and mechanisms through which temperature affects man and animals. This includes studies of their responses to these effects and on the ecological consequences. Directly relevant to this theme are: • The mechanisms of thermal limitation, heat and cold injury, and the resistance of organisms to extremes of temperature • The mechanisms involved in acclimation, acclimatization and evolutionary adaptation to temperature • Mechanisms underlying the patterns of hibernation, torpor, dormancy, aestivation and diapause • Effects of temperature on reproduction and development, growth, ageing and life-span • Studies on modelling heat transfer between organisms and their environment • The contributions of temperature to effects of climate change on animal species and man • Studies of conservation biology and physiology related to temperature • Behavioural and physiological regulation of body temperature including its pathophysiology and fever • Medical applications of hypo- and hyperthermia Article types: • Original articles • Review articles