The aim of this study is to assess the impact of different environmental factors on the ability for a thermistor-based epitympanic thermometer to accurately read the temperature of a normothermic individual and thereby estimate their feasibility and reliability in the austere pre-hospital setting.
The aim of this study is to assess the impact of different environmental factors on the ability for a thermistor-based epitympanic thermometer to accurately read the temperature of a normothermic individual and thereby estimate their feasibility and reliability in the austere pre-hospital setting. Healthy volunteers will be recruited. As reference value for core temperature we will use a standard rectal probe (Mon-a-Therm, General purpose Temperature Probe 12Fr/Ch, Covidien) attached to an external monitor. The study will be in a field setting in the mountains of Hemsedal, Norway. For measuring the epitympanic temperature we will use the Metraux Thermometer (Walpoth, Galdikas et al. 1994). The Metraux Thermometer is widely used in pre-hospital care in Norway and internationally. The ear-sensor will after induction of anaesthesia be inserted according to the manufacturers specifications in the auditory canal and activated. The sensor is two tiny and soft metal wires covered in a plastic wrapping integrated in a soft rubber earplug. The depth of the measuring point is pre-set from the manufacture to be approximately 10 mm from the tympanic membrane. The display will then show the epitympanic temperature in real-time. The volunteers will be exposed to four different scenarios. 1. Ambient air with no protection of head/measuring site. 2. Ambient air with local protection of measuring site. 3. Snow in the ear-canal before placing the thermometer (to resemble avalanche conditions). 4 Cold water in the ear canal (to resemble water immersion/submersion). The temperature will be measured in degrees Celsius. A baseline will be established before exposing the volunteers to the different environmental factors. After exposure the temperature will be recorded every 15 seconds for a total of 10minutes.
Study Type
OBSERVATIONAL
Enrollment
13
accuracy of epitympanic temperature measurement in different environmental settings
Temperature in degrees celsius
The temperature will be recorded for a total of 10minutes during four different scenarios and compared to the rectal temperature
Time frame: The patients will be followed during the induced environmental factors, an expected average of 1 hour/participant.
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