Coen C W G Bongers1, Maria T E Hopman1, Thijs M H Eijsvogels2. 1. Radboud Institute for Health Sciences, Radboud University Medical Center, Department of Physiology, The Netherlands. 2. Radboud Institute for Health Sciences, Radboud University Medical Center, Department of Physiology, The Netherlands; Liverpool John Moores University, United Kingdom. Electronic address: Thijs.Eijsvogels@radboudumc.nl.
Abstract
OBJECTIVES: An accurate and non-invasive measurement of core body temperature (Tc) is of great importance to quantify exercise-induced increases in Tc in athletes or to assess changes in Tc in patient populations. The use of ingestible gastrointestinal telemetric temperature capsules is widely accepted as a surrogate marker for Tc, but widespread implementation is lacking due to the high costs of these disposable capsules. A new and cheaper temperature capsule system (i.e. myTemp) was recently introduced. The aim of present study is to determine the validity and test-retest reliability of the myTemp system. DESIGN: Ex-vivo experimental study. METHODS: Fifteen ingestible temperature capsules (myTemp, Nijmegen, Netherlands) were tested in a highly temperature controlled water bath, in which the water temperature gradually increased from 34°C to 44°C. The study protocol was performed twice for each temperature capsule. RESULTS: Mean difference between myTemp temperature and water bath temperature was -0.001±0.005°C (Limit of Agreement (LOA): ±0.011°C) during Trial 1 (p=0.11) and -0.001±0.006°C (LOA: ±0.012°C) during Trial 2 (p=0.039). Furthermore, an Intraclass Correlation Coefficient (ICC) of 1.00 was found for both trials. A systematic difference between Trials 1 and 2 of 0.004±0.008°C (LOA: ±0.015°C) was found (p<0.001), whereas the ICC between both trials was 1.00 and the standard error of measurement was 0.005°C. CONCLUSIONS: Although we found a systematic bias for the sensitivity (-0.001°C) and reliability (0.004°C), these values can be considered insignificant from a physiological and clinical perspective. Thus, the myTemp ingestible temperature capsule is a valid technique to measure (water) temperature under controlled circumstances.
OBJECTIVES: An accurate and non-invasive measurement of core body temperature (Tc) is of great importance to quantify exercise-induced increases in Tc in athletes or to assess changes in Tc in patient populations. The use of ingestible gastrointestinal telemetric temperature capsules is widely accepted as a surrogate marker for Tc, but widespread implementation is lacking due to the high costs of these disposable capsules. A new and cheaper temperature capsule system (i.e. myTemp) was recently introduced. The aim of present study is to determine the validity and test-retest reliability of the myTemp system. DESIGN: Ex-vivo experimental study. METHODS: Fifteen ingestible temperature capsules (myTemp, Nijmegen, Netherlands) were tested in a highly temperature controlled water bath, in which the water temperature gradually increased from 34°C to 44°C. The study protocol was performed twice for each temperature capsule. RESULTS: Mean difference between myTemp temperature and water bath temperature was -0.001±0.005°C (Limit of Agreement (LOA): ±0.011°C) during Trial 1 (p=0.11) and -0.001±0.006°C (LOA: ±0.012°C) during Trial 2 (p=0.039). Furthermore, an Intraclass Correlation Coefficient (ICC) of 1.00 was found for both trials. A systematic difference between Trials 1 and 2 of 0.004±0.008°C (LOA: ±0.015°C) was found (p<0.001), whereas the ICC between both trials was 1.00 and the standard error of measurement was 0.005°C. CONCLUSIONS: Although we found a systematic bias for the sensitivity (-0.001°C) and reliability (0.004°C), these values can be considered insignificant from a physiological and clinical perspective. Thus, the myTemp ingestible temperature capsule is a valid technique to measure (water) temperature under controlled circumstances.
Authors: Sophie H Kroesen; Johannus Q de Korte; Maria T E Hopman; Coen C W G Bongers; Thijs M H Eijsvogels Journal: Eur J Appl Physiol Date: 2021-11-19 Impact factor: 3.078
Authors: Lennart P J Teunissen; Kaspar M B Jansen; Emiel Janssen; Boris R M Kingma; Johannus Q de Korte; Thijs M H Eijsvogels Journal: BMJ Open Sport Exerc Med Date: 2022-06-23
Authors: Johannus Q de Korte; Bertil J Veenstra; Mark van Rijswick; Eline J K Derksen; Maria T E Hopman; Coen C W G Bongers; Thijs M H Eijsvogels Journal: Front Sports Act Living Date: 2022-06-22