Without reference, identify principles about Hypothermia Systems with at least 70 percent accuracy.
Hypo/Hyperthermia Unit Primary Uses ◦ Maintain normal temperature in patients during and after surgery ◦ Decrease and stabilize the body temperature of febrile patients ◦ Elevate the body temperature of victims of accidental hypothermia
Mechanisms of Heat Loss ◦ A healthy person resting at room temperature generates metabolic heat at a rate of approximately 70kcal/hr for a 154lb individual. Without heat loss from the environment, metabolic heat would cause body temperature to rise about 1 C/hr ◦ Body heat loss occurs by several mechanisms Conductive heat loss Heat loss to cooler objects in contact with the skin Usually negligible (2%), even when a patient is recumbent (lying down) Contacted surfaces are rapidly warmed to near body temperature Most surfaces on which patients lie are poor thermal conductors
Convective heat loss Increases rapidly with wind velocity Accounts for less than 20% of total heat loss at room temperature When air temperature exceeds body temperature, the body gains heat energy Radiational heat loss Heat loss from transition of infrared radiation to cooler objects in the environment Accounts for about 65% of the total heat loss at room temperature for an unclothed patient Heat loss can be significantly reduced by covering exposed portions
Temperature drops during surgery ◦ Ideally, the minimum core temperature during surgery should be 35 C This may be too great a drop for very old, very young, or cardiac patients Many researchers report much larger temperature drops-even down to 30 C-during surgery Average Drops 0.3° C/hr for 20 year old patients 1.1° C/hr for 80 year old patients
◦ Temperature drops of 3-4 C, caused by the following mechanisms, are common during surgical procedures: ◦ Convective heat loss occurs because Large amounts of the body's surface are exposed in the OR Where humidity is low and temperatures are typically C Hypothermia is common during pediatric surgery The infant's relatively large body surface area, which increases heat loss to the atmosphere 2 Relatively small body mass for conserving heat
Increased evaporative heat loss occurs: When the patient breathes in dry anesthetic gasses Volatile cleaning solutions are applied to the skin Moist surgical wounds are exposed to the air Infusing cold or room-temperature fluids (e.g. blood) contributes to heat loss Anesthetic agents Can affect the patient's thermoregulatory system promoting heat loss Halothane causes blood vessels to enlarge reducing sensitivity to catecholamines, which promote heat gain
◦ Large temperature drops during surgery pose significant dangers The risk of ventricular fibrillation increases and is especially great for cardiac patients Patients who are already hypothermic are more susceptible to fibrillation caused by infusing cool fluids Heat loss in the OR must be regained with increased circulatory and ventilatory effort in the postoperative period, when these functions in the patient may be compromised Even a small temperature change will cause a large increase in a patient's oxygen uptake Which is hazardous for cardiac patients Shivering during this period may increase 02 uptake and CO2 production fivefold
Methods of inducing temperature changes ◦ Invasive methods of raising body temperature Most rapid Usually reserved for severe hypothermia These methods are not preferred Require compromising the closed system of the body Possibly enhancing the chance of infection or shock Other methods of raising the body temperature may be slow. (hypothermia machines)
◦ External rewarming method The core temperature may continue to drop Factors reducing the long-term effectiveness of external rewarming in raising core temperature: Vasodilatation Inhibition of metabolism Shivering
◦ Lowering body temperature Clinicians may deliberately lower the temperatures of surgical, as well as febrile patients by: Infusing cold water or using ice baths Ice packs Cold air ventilation o Sponge baths o Hypothermia machines
Reducing body temperature slows metabolism by reducing the speed of biochemical reactions When intentionally induced during cardiac surgery, or neurosurgery: Hypothermia reduces the body's need for o Blood flow o Oxygen o Waste elimination Thereby permitting greater tolerance of surgical procedures and reducing tissue injury