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This project will identify the efficacy of cooling modalities aimed to attenuate excessive elevations in skin and internal body temperatures, and associated indices of cardiovascular stress, during physical activity in well-healed burn survivors. The investigators will conduct a randomized crossover design study. Non-burned control subjects and subjects who experienced burns covering 20% or more of their body surface area will be investigated. Subjects will exercise in heated environmental conditions while receiving no cooling (control) as well as skin wetting.
Within the United States, 500,000+ individuals are enduring the long-term consequences of severe burn injuries covering 20% or more of their body surface area, with upwards to 11,000 individuals experiencing such an injury per year. These burn injuries can severely compromise body temperature regulation, owing to permanent impairments in the primary thermoeffectors necessary to dissipate heat, namely profoundly blunted skin blood flow and sweating responses in the injured skin. The investigators propose that this heat intolerance deters burn survivors from participating in physical activity, including activities of daily living, necessary to avoid the adverse cardiovascular and metabolic sequela of a sedentary lifestyle. Consistent with hypothesis, years after the injury burn survivors have a very low aerobic capacity; greater all-cause mortality rates; greater hospitalization days for circulatory diseases; and suffer from greater incidences of ischemic heart disease, heart failure, diabetes, and cerebrovascular disease (including stroke) relative to matched non-burned cohorts. The primary goal of this project is to identify modalities to attenuate excessive elevations in skin and core body temperatures, and accompanying cardiovascular stress, during physical activity in well-healed burn survivors. The implementation of such modalities will eliminate heat intolerance as a barrier to participation in activities that are necessary to improve/maintain cardiovascular health in this vulnerable population. This project will investigate whether increased skin wetness will restore otherwise impaired evaporative cooling of well-healed burn survivors, with the extent of that improvement predicated on the environmental conditions and the percentage of body surface area burned.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Non-Burned Individuals | Experimental | Non-burned individuals will exercise for 60 minutes in the heat while being exposed to either no cooling or cooling via skin wetting (two trials). |
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| Burn Survivors (20% or more Burn Surface Area burn-injured) | Experimental | Burn survivors with 20% or more BSA (burn surface area) burn-injured will exercise for 60 in the heat while being exposed to either no cooling or cooling via skin wetting (two trials). |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Control (no cooling modalities) | Other | Subjects will exercise for 60 minutes in the heat while being exposed to no cooling modality. |
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| Measure | Description | Time Frame |
|---|---|---|
| Change in Core Temperature (°C) During Control Intervention | The subject's core body temperature will be measured from gastrointestinal or rectal temperature measures. | At 0 minutes and 60 minutes into the intervention. |
| Change in Core Temperature (°C) During Water-Spray Intervention | The subject's core body temperature will be measured from gastrointestinal or rectal temperature measures. | At 0 minutes and 60 minutes into the intervention. |
| Measure | Description | Time Frame |
|---|---|---|
| Skin Temperature (°C) Following Control Intervention | The subject's skin temperature will be measured from small temperature sensitive electrodes attached to the participant's skin. | At 60 minutes into the intervention. |
| Skin Temperature (°C) Following Water-Spray Intervention |
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Inclusion Criteria: Non-Burned Individuals
Exclusion Criteria: Non-Burned Individuals
Inclusion Criteria: Burn Survivors
Exclusion Criteria: Burn Survivors
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| Name | Affiliation | Role |
|---|---|---|
| Craig G Crandall, PhD | University of Texas Southwestern Medical Center | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Institute for Exercise and Environmental Medicine - Texas Health Presbyterian Hospital Dallas | Dallas | Texas | 75231 | United States |
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| ID | Term |
|---|---|
| D002056 | Burns |
| ID | Term |
|---|---|
| D014947 | Wounds and Injuries |
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The investigators will conduct a randomized crossover design study.
Burn survivors (20% or more burn surface area) and non-burned individuals will perform 60-min of exercise in the heat on two occasions - one being a control (no cooling trial) and one with the implementation of the cooling modality (water spray).
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No masking is required as each subject will be exposed to the cooling modality and the control (non-cooling) trial.
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| Water Spray | Other | Subjects will exercise for 60 minutes in the heat while being exposed to skin wetting. Skin wetting will be performed by spraying water onto the skin throughout the exercise bout. |
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The subject's skin temperature will be measured from small temperature sensitive electrodes attached to the participant's skin. |
| At 60 minutes into the intervention. |
| Heart Rate Following Control Intervention | The subject's heart rate will be measured from ECG electrodes attached to the participant. | At 60 minutes into the intervention. |
| Heart Rate Following Water-Spray Intervention | The subject's heart rate will be measured from ECG electrodes attached to the participant. | At 60 minutes into the intervention. |
| Mean Arterial Blood Pressure Following Control Intervention | The subject's mean arterial blood pressure will be measured using a standard arm blood pressure cuff. Mean Arterial Pressure (MAP) is a common physiological measure calculated by adding the diastolic blood pressure value to one third of the difference between the systolic (SBP) and diastolic (DBP) blood pressure values. MAP = DBP + 1/3(SBP - DBP) | At 60 minutes into the intervention. |
| Mean Arterial Blood Pressure Following Water-Spray Intervention | The subject's mean arterial blood pressure will be measured using a standard arm blood pressure cuff. Mean Arterial Pressure (MAP) is a common physiological measure calculated by adding the diastolic blood pressure value to one third of the difference between the systolic (SBP) and diastolic (DBP) blood pressure values. MAP = DBP + 1/3(SBP - DBP) | At 60 minutes into the intervention. |