The purpose of this study is to compare surface and intradermal skin temperature responses to heat stress with and without evaporative and convective cooling.
Humans have important thermoregulatory responses aimed at maintaining body temperature within a narrow range. These responses are driven in part by receptors located in the skin that monitor temperature changes and provide feedback to the central nervous system. Given that skin temperature can affect the physiological responses to heat stress, it is important to accurately measure skin temperature in response to heat stress with and without evaporative (i.e., sweat) and convective (i.e., air flow) cooling. Skin temperature is most often measured on the surface of the skin; however, this temperature can be influenced by other factors such as the local environment. It is unclear how the temperature of the skins surface compares to the temperature within the dermal layer of the skin. The study team will directly compare skin surface and intradermal temperature responses to heat stress and determine whether these responses area altered by evaporative or convective cooling methods. To accomplish this objective, healthy adults will be exposed to ambient heat stress (no higher than 47°C) with and without evaporative (water sprayed on the skin) and convective (electric fan) cooling. Thermoregulatory responses, inclusive of skin surface and intradermal temperatures, will be assessed throughout the heat trial.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
9
Individuals will be exposed to a heated environment (41°C, 15% humidity) for a period of 15 minutes without a cooling modality.
Individuals will be exposed to a heated environment (41°C, 15% humidity) for a period of 15 minutes with an electric fan as a cooling modality.
Individuals will be exposed to a heated environment (41°C, 15% humidity) for a period of 15 minutes with an electric fan and water spray as cooling modalities.
Institute for Exercise and Environmental Medicine
Dallas, Texas, United States
Skin Temperature with Fan Only
Skin temperature will be measured from small temperature sensitive electrodes attached to the surface and intradermal layer of the skin of the participant with the fan cooling modality.
Time frame: 40 minutes into the heat intervention.
Skin Temperature with Fan and Water Spray
Skin temperature will be measured from small temperature sensitive electrodes attached to the surface and intradermal layer of the skin of the participant with both the fan and water spray cooling modalities.
Time frame: 60 minutes into the heat intervention.
Skin Temperature with Water Spray Only
Skin temperature will be measured from small temperature sensitive electrodes attached to the surface and intradermal layer of the skin of the participant with the water spray cooling modality.
Time frame: 1 hour 20 minutes into the the heat intervention.
Skin Temperature with No Cooling
Skin temperature will be measured from small temperature sensitive electrodes attached to the surface and intradermal layer of the skin of the participant during the heat intervention with no cooling.
Time frame: 20 minutes into the heat intervention.
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Individuals will be exposed to a heated environment (41°C, 15% humidity) for a period of 15 minutes with water spray as a cooling modality.