Manage episode 212736558 series 1549874
- Heat Stroke is broadly defined as a core temperature above 104 F with central nervous system abnormalities following strenuous exercise or environmental heat. - Wilderness Medical Society.
- Heat cramps, exhaustion, illness, stroke etc. are a spectrum of a single illness (systemic non drug related hyperthermia) rather than each being an individual entity.
- THE CARDINAL SIGN OF HEAT STROKE IS ALTERED MENTAL STATUS
- Anhydrosis is not a reliable finding, and should not be used as a clinical guidepost.
- An increase in blood temp triggers hypothalamic thermoregulation it increase blood flow to the skin – cutaneous vasodilation – blood shunts the the periphery to facilitate heat loss through sweating.
- Renal and splanchnic perfusion is reduced.
- Heat stroke produces an inflammatory response similar to that seen in sepsis.
- Increased mucosal permeability from inflammatory mediators allows endotoxins from the gut to enter systemic circulation – leading to alterations in microcirculation, more endothelial and tissue injury, and impaired thermoregulation.
- Acclimatization may be likened to receiving a "heat vaccine" with small steady doses of exertion in hot environments provoking an adaptive response within the body.
- 1-2 hours of progressive, controlled, heat-exposed exertion per day for 10-14 days.
- This adaptation may persist up to a month.
- One bout of a heat stroke may reset thermoregulatory adaptations and increase risk for subsequent heat injury for months.
- Hyperhydration has no effect on heat tolerance.
- Forced hydration is ineffective and dangerous (hyponatremia risk).
- Wet Bulb Globe Temperature
- "Composite" temperature factoring humidity, sun angle, apparent temperature, wind speed, and solar radiation.
- Generally considered more accurate than the Heat Index, which is a function of temperature and humidity in shaded areas.
- As the environmental temperature increases the body will incur a net heat gain through convective and radiative processes, leaving evaporative thermoregulation as the only cooling mechanism.
- Some activities enhance heat transfer: Cyclist, swimmers, etc.
- Increased metabolic demand and increased ambient conditions should lead to breaks in proportion to both.
Field Treatment Principles
- Rapid, often empiric, cold water immersion is the gold standard treatment.
- Rapid reversal of the condition is key: morbidity and mortality is directly associated with the duration of hyperthermia experienced by the patient.
- If a patient is hyperthermic and has AMS, empiric cooling should not be delayed to obtain a temperature – or if temperature is less than 104 F, it should not deter you from aggressive cooling measures.
- Naturally, manage ABCs as needed.
- Treatment on scene is preferred over rapid transport.
- CWIT is the gold standard of treatment, and usually involves placing a patient's entire body (with airway protection measures in place) in a tub or trough of cold water.
- CWIT is two times more effective in heat transfer than spraying cool water over the body.
- Hindrance of cooling in the setting of EHS due to shivering has been physiologically refuted.
- If CWIT is not available, repeated dousing of cold water over the patient is "next best".
- Ice Sheets placed over the patient's body and exchanged every 2-3 minutes is an approach often adapted by the military where carrying large troughs of ice water is not optimal.
- Axillary or inguinal placement of chemical cold packs or ice is not effective.
- Be creative! The goal is to get large volumes of water over the patient or place the patient in a body of water to maximize the effect of convective cooling.
- Rectal and/or esophageal temperature monitoring is the gold standard.
- Oral, axillary, or skin temperature readings are highly likely to be inaccurate.
- Temperature monitoring is not required to initiate therapy, but may be helpful to guide therapy or consider other differential diagnoses.