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Heat Stress Disorders clinical trials

View clinical trials related to Heat Stress Disorders.

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NCT ID: NCT04540718 Completed - Clinical trials for Cardiovascular Risk Factor

Exercise and Sauna on Blood Pressure and Cardiovascular Health

ES2019
Start date: August 8, 2019
Phase: N/A
Study type: Interventional

The study aims to investigate the effects of including regular heat therapy when included to exercise. Specifically, participants in the sauna intervention group will undergo 15 minutes of sauna exposure immediately after a 50-minute session of exercise, 3 times a week, while participants in the exercise intervention group will follow only the same exercise protocol. The 50-minute exercise session consists of 20 minutes of moderate intensity strength exercise, followed by 30 minutes of moderate-vigorous aerobic exercise on stationary bikes. This exercise intervention protocol was selected in order to meet and adhere to the recommended physical activity guidelines.

NCT ID: NCT04353076 Completed - Aging Clinical Trials

Physiological Responses in Young and Older Adults During a Prolonged Simulated Heatwave

HW1
Start date: January 1, 2019
Phase: N/A
Study type: Interventional

Climate change not only affects the planet's natural resources, but also severely impacts human health. An individual's ability to adequately cope with short- or long-term increases in ambient temperature is critical for maintaining health and wellbeing. Prolonged increases in temperature (heatwaves) pose a serious health risk for older adults, who have a reduced capacity to efficiently regulate body temperature. However, information regarding the impact of age on body temperature regulation during prolonged exposure to extreme heat is lacking, as is research on the effectiveness of interventions aimed at reducing heat strain in such situations. This project will address these important knowledge gaps by exposing healthy young and older adults to a prolonged (9 hour) heat exposure, with conditions representative of heatwaves in temperate continental climates. An additional cohort of older adults will complete the same heatwave simulation but will be briefly (2 hours) exposed to cooler conditions (22-23°C) mid-way through the session (akin to visiting a cooling centre or cooled location). The investigators will evaluate age-related differences in the capacity to dissipate heat via direct air calorimetry (a unique device that permits the precise measurement of the heat dissipated by the human body) and their effect on the regulation of body temperature. The investigators anticipate that older adults will exhibit progressive increases in the heat stored in the body throughout the simulated heatwave, resulting in progressive increases in body core temperature. Further, older adults exposed to brief-mid day cooling will rapidly gain heat upon re-exposure to high ambient temperatures. As a result, by the end of exposure body temperatures will be similar to the group not removed from the heat.

NCT ID: NCT04348630 Completed - Aging Clinical Trials

Establishing Evidence-based Indoor Temperature Thresholds to Protect Health

HW2
Start date: June 1, 2019
Phase: N/A
Study type: Interventional

An individual's ability to adequately cope with short- or long-term increases in ambient temperature is critical for maintaining health and wellbeing. Prolonged increases in temperature (heatwaves) pose a serious health risk for older adults, who have a reduced capacity to regulate body temperature. Currently, however, there is a lack of information regarding how different environmental conditions experienced during heatwaves impact body temperature regulation and physiological function. This is particularly important in the context of ambient conditions in the home, where older adults spend the majority of their time. This project will address this important issue by exposing healthy older adults to prolonged (8-hour) simulated heatwaves comprising a range of environmental conditions representative of an actively cooled domicile through to a worst-case scenario (i.e., no capacity for home cooling). The investigators will directly measure their ability to regulate their body temperature and the associated impact on the autonomic control of the heart. The investigators anticipate that physiological strain will be mild during prolonged exposure to conditions below the currently recommended thresholds set by Toronto Public Health (26°C). However, at higher indoor temperatures, impairments in body temperature and cardiovascular regulation will be seen.

NCT ID: NCT04241900 Completed - Risk of Heat Stress Clinical Trials

Effect of Aging and Aerobic Fitness Level on Heat Dissipation

Start date: May 1, 2014
Phase: N/A
Study type: Interventional

In the context of global aging, the health risk factors associated with exercising or working in the heat for aging population are exacerbated by the rising in global surface temperatures. The purpose of this investigation is to determine at what age the heat loss decrements occur and to examine if aerobic fitness level can affect the heat loss capacity in neutral environmental conditions.

NCT ID: NCT04234802 Completed - Clinical trials for Heat Stress Disorders

A Multi-Level Approach to Heat-Related Illness Prevention in Agricultural Workers

Start date: May 22, 2019
Phase: N/A
Study type: Interventional

The project's primary aim is to evaluate the effectiveness of a multi-level heat prevention approach in reducing adverse heat health effects in outdoor agricultural workers The secondary aims are to: - Test the effectiveness of an individual-level training component designed to reduce adverse heat health effects in outdoor agricultural workers - Evaluate the effectiveness of a workplace supervisor-level heat awareness application intended to support supervisor decisions to reduce the risk of workers experiencing adverse heat health effects

NCT ID: NCT04197375 Completed - Risk of Heat Stress Clinical Trials

Impact of Pre-cooling in Adolescent Tennis Athletes

Start date: August 1, 2018
Phase: N/A
Study type: Interventional

Many tennis tournaments are played outdoors in hot and humid conditions, which poses a significant challenge particularly for children athletes. The purpose of this investigation is to examine if a precooling method can reduce thermal strain and consequently improve the performance of adolescent tennis athletes while exercising in hot conditions.

NCT ID: NCT04160741 Completed - Heat Stress Clinical Trials

Effects of Solar Radiation on Human Function and Cognition

Start date: February 15, 2019
Phase: N/A
Study type: Interventional

Solar radiation is a physical phenomenon which interacts with any human being throughout its life on earth. This interaction is associated with numerous physiological functions, as well as a broad spectrum of deleterious effects on human health and wellbeing. The aim of this study is to elucidate the effects of solar radiation on human function and cognition in environmental conditions characterized by the same thermal stress.

NCT ID: NCT04160728 Completed - Risk of Heat Stress Clinical Trials

Occupational Heat Stress on Workers' Productivity

Start date: July 5, 2019
Phase: N/A
Study type: Interventional

Workplace heat exposure affects billions of people during their everyday work activities. Occupational heat stress impairs workers' health and capacity to perform manual labour. Therefore, the aim of this study was to observe the heat strain experienced by workers in occupational settings and test different strategies to mitigate it during actual work shifts in agriculture, manufacture, tourism, construction, and other services.

NCT ID: NCT03815708 Completed - Clinical trials for Body Temperature Changes

Heat Stress in Wheelchair Sports

Start date: November 1, 2018
Phase:
Study type: Observational

The aim of the study is to study the thermoregulatory responses under real life conditions, such as during wheelchair rugby and basketball matches. A further goal is to develop and validate a standardised field-based protocol, which induces the same thermoregulatory response as during a wheelchair rugby and basketball match. This knowledge allows to investigate strategies to reduce heat stress and to enhance exercise performance (e.g. pre-cooling) in the future, based on standardised conditions.

NCT ID: NCT03618524 Completed - Clinical trials for Endothelial Dysfunction

Effect of Local Heat Stress Via Leg Bath on Artery Function

HEAT
Start date: January 15, 2019
Phase: N/A
Study type: Interventional

Arteries are flexible in their structure and function and change in response to a variety of factors. Endothelial cells, are the skin type cells that form a layer inside arteries, and they are very important for arterial health. When they work properly, they produce substances that make the artery enlarge and support a healthy environment; but when they do not work properly, they produce substances that make the artery constrict and lead to a harmful environment. We can measure the function of these cells using an ultrasound machine and a quick test. The application of heat has been shown to change the structure and function of arteries, but we need to understand how these changes happen before we can effectively use heat as a therapy. Limb heating protocols (e.g., leg bath), in contrast with whole-body heating modes (e.g., sauna), are appealing as therapies because they generally cost less and are easier to use; but evidence is needed to demonstrate that they work before widespread use can be considered. Imagine soaking your legs in a bathtub filled with warm water becoming part of the options you have for staying healthy. Clearly, there is a lot of potential for heat to be used as a therapy, particularly for people who are unable to, or have difficulty participating in other health interventions that are known to improve arterial, but we need to do this type of research before we are able to recommend warm foot baths for therapeutic purposes.