pre and post intervention quasi-experimental epidemiological study without a control group will be carried out in large burned patients that will evaluate the influence on metabolic expenditure of the inclusion of active external rewarming in the control of body temperature.
the heavily burned patient requires specific care to prevent hypothermia and maintain body temperature. You are at high risk of developing hypothermia in the acute phase due to heat losses from convection, radiation, evaporation, and conduction. After the acute phase, the patient due to physiological mechanisms and the hypermetabolic response mainly demands a temperature close to 38.5ºC, ruling out the infectious focus. According to the authors, environmental temperatures between 28-33ºC are recommended for the care of these patients to decrease energy expenditure. The research carried out has studied the influence of passive external heating (environmental regulation), without including the influence of active external heating (heat blankets, heating plate ...) or the study of the thermal comfort of large burned patients and of professionals who provide them they attend. A pre and post intervention quasi-experimental epidemiological study without a control group will be carried out in large burned patients that will evaluate the influence on metabolic expenditure of the inclusion of active external rewarming in the control of body temperature. Metabolic expenditure will be measured by indirect calorimetry in the usual treatment with passive external rewarming and post-intervention in the combination of passive and active external heating. The combination of passive and active external reheating will previously study the operating temperature in various cases for optimal application, as well as the definition of thermal comfort in the large burn unit. The specific training of the personnel involved in the care of these patients will be required for the application of the evidence-based recommendations and the evaluation of their implementation.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
34
It is a heating device that is adjustable in height up to 50 cm from the patient and generates radiant heat at low temperature (up to 39 ◦C) distributed evenly. It is equipped with an adjustable 0-9 potentiometer and has a skin temperature probe as a control and safety mechanism Measure during 6 hours with indirect calorimetry in first week
Composed of a unit that produces hot air and forced air adjustable from 38ºC to 43ºC. Sends hot forced air distributed by tubular blanket that convectively heats the patient by diffusing hot air directed at the patient through the textile pore of the air blanket Measure during 6 hours with indirect calorimetry in first week
Metabolic expenditure
Compare the metabolic expenditure of burned patients according to the heating method between the combination of active and passive external adjusted to thermal comfort versus external passive overheating.
Time frame: Measure during 6 hours with indirect calorimetry in first recovery week with three heating methods
Optimal environmental temperature
Define the optimal environmental temperature according to the characteristics of the patient with a large burn during the acute phase, assigning the available resources.
Time frame: Measure during 6 hours with three heating methods in first recovery week
Thermal comfort
Analyze thermal comfort according to heating methods in large burned patients.
Time frame: Measure during 6 hours with three heating methods first recovery week
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.