The Effect of IEQ on Cognition and Health

The goal of this study is to learn about the effect of heat and humidity on cognition and health. The main question\[s\] it aims to answer are: type of study: interventional participant population: 20-40years, both gender, healthy Participants will be exposed for 4 different sessions of 8 hours at a time, to 32˚ C or 25˚ C in combination with relative humidity of 30 %RH or 70 %RH.

Overall, the project aims to evaluate the effects of high vs. neutral temperature (32˚ C vs. 25˚ C) in combination with high vs. low humidity (30 %RH vs. 70 %RH) on cognition, for longer exposure duration (8 hours). Deviations from the personal comfort zones are expected to affect both subjective feelings and physiological parameters. Therefore, the following parameters will be included: cognition, environmental perception, energy expenditure, body temperatures. Main research question and primary objective: What is the impact of being exposed for 8 hours to a high humidity (RH 70%) versus low humidity (RH 30%) on cognitive performance of individuals if the room temperature is 25ºC or 32ºC? This leads to the following hypotheses: * Exposure to an indoor high relative humidity (RH 70%) at a warm temperature (32ºC) of a long duration (8 hours) reduces the composite score, speed and accuracy of cognitive performance compared to an exposure to a low RH (30%) at the same temperature (32ºC) due to the humidity. * An exposure to an indoor high relative humidity (RH 70%) at a neutral temperature (25ºC) of a long duration (8 hours) would reduce the composite score, speed and accuracy of cognitive performance compared to an exposure to a low RH (30%) at a neutral temperature (25 ºC) due to previous literature for humidity influences at neutral temperatures. Secondary research question and secondary objective: What is the effect of high vs. neutral temperature (32˚ C vs. 25˚ C) in combination with high vs. low humidity (30 %RH vs. 70 %RH) on physiological responses, environmental perception, decision making, and bias behaviour? This leads to the following hypotheses: 1. Does an 8 hour exposure to an elevated concentration of indoor humidity lead to an increase in energy expenditure and/or a greater difference in proximal and distal blood flow and skin temperature gradients compared to a lower indoor humidity for each of the temperature settings? 2. What are the effects of high humidity on substrate oxidation, blood pressure, heart rate variability, proximal and distal skin temperature, risk behavior and decision-making responses of individuals? 3. What are the effects of higher humidity on environmental perception (thermal, air quality, moisture/wetness) comfort, perception, and sensation? * An exposure to an indoor high relative humidity (RH 70%) at a warm temperature (32ºC) of a long duration (8 hours) reduces the composite score, speed and accuracy of cognitive performance compared to an exposure to a high RH (70%) at a neutral temperature (25 ºC) due to the humidity and temperature. * An exposure to an indoor low relative humidity (RH 30%) at a warm temperature (32ºC) of a long duration (8 hours) would reduce the composite score, speed and accuracy of cognitive performance compared to an exposure to the same low RH (30%) at a neutral temperature (25 ºC) due to the temperature. Exploratory research question and objective: What is the interaction effect of high vs. neutral temperature (32˚ C vs. 25˚ C) in combination with high vs. low humidity (30 %RH vs. 70 %RH) on cognitive performance, physiological responses, environmental perception, decision making, and bias behaviour?