![]() VALIDATED BODY TEMPERATURE ASSESSMENT METHODS ![]() When the immediate assessment of internal body temperature does not reveal extreme hyperthermia then the athletic trainer or team physician can begin to consider other reasons for altered mental status, such as exertional hyponatremia, head injuries, hypoglycemia issues, cardiac issues (which should be assessed first before a body temperature measurement), exertional red blood cell sickling, or other possibilities Fourth, the internal body temperature can provide valuable information for an athlete with altered consciousness that does not have EHS. ![]() These are procedures where athletes/soldiers/laborers are provided an exercise heat challenge, and the measurement of the magnitude of hyperthermia is a factor in the assessment of the person’s exercise heat tolerance. Third, it is used regularly during the process of conducting heat tolerance tests. The constant monitoring allows for the individual to stay within a safe degree of hyperthermia. Second, internal body temperature is routinely monitored during intense exercise in the heat as a preventative process, whether it be a special forces soldier who needs to simultaneously maintain intensity and safety, or an athlete returning from an EHS episode. It is safe to say that the immediate and valid measurement of internal body temperature has provided life-saving information for many exertional heat stroke survivors. It is used first to make the diagnosis of EHS (Armstrong et al., 2007), then is used throughout cooling in cold water immersion to track the cooling process, and lastly is a critical measure to decide when to stop the cooling. First, and most importantly, is the assessment of internal body temperature during the entire process of care for exertional heat stroke (EHS). In the sports medicine world, the valid assessment of internal body temperature provides information in at least four critical situations. Third, temperature is often used to establish a steady state level of activity, as it can serve as an indicator of compensable heat stress, such that a particular research question can be evaluated. Examples in this area include studies investigating hydration status, beverage consumption, heat acclimatization, body cooling, environmental conditions, exercise intensity, equipment, clothing, fitness, etc. Second, the measure allows for a critically dependent variable to be reported when evaluating research questions that may influence heat production. First, it assures for the safety of the research subject during the study, an especially important measure when exercise is conducted in the heat or the exercise intensity is high, and especially when both conditions are present. In the realm of exercise science research, it provides three critical components to the research process. The applications of monitoring body temperature can be far-reaching and can have important implications for athletes, soldiers, emergency service personnel and laborers. The assessment of internal body temperature is an essential component of exercise science research studies and is a key diagnostic measure in the field of sports medicine. Physically active even though many technological and physiological problems must be overcome. Prediction modeling of internal body temperature during exercise remains an approach which may increase performance and safety in the The dual-heat-flux method (DHFM) and the zero-heat-flux (ZHF) method may prove useful to assess internal body temperature in real time during Oral, aural, tympanic, skin, axillary, and temporal temperature measurements should not be used to evaluate internal body temperature of an ![]() Rectal, gastrointestinal, and esophageal temperatures are the validated internal body temperature assessment methods that have application in research and/or sports medicine. Accurately, conveniently, and quickly being able to monitor internal body temperature is an essential component of many research endeavors inĮxercise science and is a critical diagnostic tool for determining exertional heat stroke and ruling out other potentially catastrophic medical conditions. ![]()
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