Hypothermia

Hypothermia
Classification and external resources
ICD-10 T68.
ICD-9 991.6
DiseasesDB 6542
eMedicine med/1144 
MeSH D007035

Hypothermia is a condition in which an organism's temperature drops below that required for normal metabolism and bodily functions. In warm-blooded animals, core body temperature is maintained near a constant level through biologic homeostasis. But, when the body is exposed to cold, its internal mechanisms may be unable to replenish the heat that is being lost to the organism's surroundings.

Hypothermia is the opposite of hyperthermia, the condition that causes heat exhaustion and heat stroke.

Contents

Symptoms

Normal body temperature in humans is 37°C (98.6°F). Hypothermia can be divided in three stages of severity.

Body temperature drops by 1-2°C (1.8-3.6°F) below normal temperature (35-36°C or 95-96.8°F). Mild to strong shivering occurs.[1][2] The victim is unable to perform complex tasks with the hands; the hands become numb. Blood vessels in the outer extremities constrict, lessening heat loss to the outside air. Breathing becomes quick and shallow. Goose bumps form, raising body hair on end in an attempt to create an insulating layer of air around the body (which is of limited use in humans due to lack of sufficient hair, but useful in other species). Often, a person will experience a warm sensation, as if they have recovered, but they are in fact heading into Stage 2. Another test to see if the person is entering stage 2 is if they are unable to touch their thumb with their little finger; this is the first stage of muscles not working.

Body temperature drops by 2-4°C (3.8-7.6°F). Shivering becomes more violent. Muscle mis-coordination becomes apparent.[1][2][3] Movements are slow and labored, accompanied by a stumbling pace and mild confusion, although the victim may appear alert. Surface blood vessels contract further as the body focuses its remaining resources on keeping the vital organs warm. The victim becomes pale. Lips, ears, fingers and toes may become blue.

Body temperature drops below approximately 32 °C (89.6 °F). Shivering usually stops.[1][2] Difficulty speaking, sluggish thinking, and amnesia start to appear; inability to use hands and stumbling is also usually present. Cellular metabolic processes shut down. Below 30 °C (86.0 °F), the exposed skin becomes blue and puffy, muscle coordination becomes very poor, walking becomes almost impossible, and the victim exhibits incoherent/irrational behavior including terminal burrowing or even a stupor. Pulse and respiration rates decrease significantly, but fast heart rates (ventricular tachycardia, atrial fibrillation) can occur. Major organs fail. Clinical death occurs. Because of decreased cellular activity in stage 3 hypothermia, the body will actually take longer to undergo brain death.

Immersion Hypothermia

Hypothermia of both the extremities and body core continues to be a major limitation to diving in cold water.[1] Cooling in the extremities is often the limitation to operations.[1] The fingers decrease dexterity due to pain or numbness, safety, work capacity, and increase the risk of developing nonfreezing cold injury.[1][3]

In divers breathing heliox below 100 meters wearing hot water suits, the inspired gas must be heated or the symptoms of hypothermia can set in without the divers realizing it.[1]

Other predisposing factors leading to immersion hypothermia include dehydration, inadequate rewarming with repetitive operations, starting operations while wearing cold, wet dry suit undergarments, sweating with work, inadequate thermal insulation (for example, thin dry suit undergarment), lack of heated breathing gas with deep heliox diving, and poor physical conditioning.[1]

Treatments

Treatment for hypothermia consists of drying, sheltering, and gradually warming (making sure to not rub the patient's body, to warm with blankets and, if possible, to transfer your own body heat). While blankets help a person retain body heat, they are not sufficient to treat hypothermia. It is vital that you warm the core of the body first or the cold blood will be forced towards the heart and may cause death. In the field, a mildly hypothermic person can be effectively rewarmed through close body contact from a companion and by drinking warm, sweet liquids.

Moderate and severe cases of hypothermia require immediate evacuation and treatment in a hospital. In hospital, warming is accomplished by external techniques such as heated blankets for mild hypothermia and by more invasive techniques such as warm fluids injected in the veins or even lavage (washing) of the bladder, stomach, chest and abdominal cavities with warmed fluids for severely hypothermic patients. These patients are at high risk for arrhythmias (irregular heartbeats), and care must be taken to minimize jostling and other disturbances until they have been sufficiently warmed, as these arrhythmias are very difficult to treat while the victim is still cold.

An important tenet of treatment is that a person is not dead until he/she is warm and dead. Remarkable accounts of recovery after prolonged cardiac arrest have been reported in patients with hypothermia. It is presumed that this is because the low temperature prevents some of the cellular damage that occurs when blood flow and oxygen are lost for an extended period of time.

Prevention

Appropriate clothing helps to prevent hypothermia. Wearing cotton in cool weather is a particular hypothermia risk as it retains water, and water rapidly conducts heat away from the body. Even in dry weather, cotton clothing can become damp from perspiration, and chilly after the wearer stops exercising. Synthetic and wool fabrics provide far better insulation when wet and are quicker to dry. Some synthetic fabrics are designed to wick perspiration away from the body. In air, most heat (20 to 40 percent) is lost through the head; covering the head and neck is quite important in reducing the likelihood of hypothermia.[4][5][6]

Heat loss on land is very difficult to predict due to multiple variables such as clothing type and quantity, amount of insulating fat on the victim, environmental humidity or personal dampness such as after exertion, the circumstances surrounding the hypothermic episode, and so on. Heat is lost much faster in water, hence the need for wetsuits or drysuits in cold-weather activities such as kayaking.[1] Water temperatures that would be quite reasonable as outdoor air temperatures can lead to hypothermia very quickly. For example, a water temperature of 10°C (50 F) can be expected to lead to death in approximately 1 hour, and water temperatures hovering at freezing can lead to death in as little as 15 minutes. [7] On the other end of the scale, in water even a temperature as high as 26°C (80 F) may eventually (after many hours) lead to mild hypothermia. [8]

Alcohol consumption prior to cold exposure may increase one's risk of becoming hypothermic. Alcohol acts as a vasodilator, increasing blood flow to the body's extremities, thereby increasing heat loss.[9] Ironically, this may cause the victim to feel warm while he or she is rapidly losing heat to the surrounding environment.

The United States Coast Guard promotes using life vests as a method of prevention against hypothermia through the 50/50/50 rule: If someone is in 50-degree water for 50 minutes, he/she has a 50 percent better chance of survival than he/she has if wearing a life jacket.[10]

Benefits

There is considerable evidence that children who suffer near-drowning accidents in water near 0°C (273 K) can be revived over an hour after losing consciousness[11]. The cold water considerably lowers metabolism, allowing the brain to withstand a much longer period of hypoxia.

Therapeutic hypothermia

Main article: therapeutic hypothermia

Paradoxical undressing

Twenty percent to 50% of hypothermal deaths are associated with a phenomenon known as paradoxical undressing. This typically occurs during moderate to severe hypothermia, as the victim becomes disoriented, confused, and combative. The hypothermic victim may begin discarding the clothing he or she has been wearing, which, in turn, increases the rate of temperature loss.[12] There have been several published case studies of victims throwing off their clothes before help reached them.[13]

Rescuers that are trained in mountain survival techniques have been taught to expect this effect. However, the phenomenon still regularly leads police to assume incorrectly that urban victims of hypothermia have been subjected to a sexual assault. (M. A. Rothschild et al, "Terminal burrowing behavior", p. 1)

One explanation for the effect is a cold-induced malfunction of the hypothalamus, the part of the brain that regulates body temperature. Another explanation is that the muscles contracting peripheral blood vessels become exhausted (known as a loss of vasomoter tone) and relax, leading to a sudden surge of blood (and heat) to the extremities, fooling the victim into feeling warm.

See also

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Sterba, JA (1990). "Field Management of Accidental Hypothermia during Diving.". US Naval Experimental Diving Unit Technical Report NEDU-1-90. http://archive.rubicon-foundation.org/4248. Retrieved on 2008-06-11. 
  2. 2.0 2.1 2.2 Francis, TJR (1998). "Immersion hypothermia.". South Pacific Underwater Medicine Society journal 28 (3). ISSN 0813-1988. OCLC 16986801. http://archive.rubicon-foundation.org/5975. Retrieved on 2008-06-11. 
  3. 3.0 3.1 Cheung SS, Montie DL, White MD, Behm D (September 2003). "Changes in manual dexterity following short-term hand and forearm immersion in 10 degrees C water". Aviat Space Environ Med 74 (9): 990–3. PMID 14503680. http://www.ingentaconnect.com/content/asma/asem/2003/00000074/00000009/art00013. Retrieved on 2008-06-11. 
  4. University of Oklahoma, Health Science Center (2001). "Environmental Stress Program, Heat and Cold Stress" (PDF). Retrieved on 2008-06-18.
  5. The Merck Manuals (2005). "Cold injury". Retrieved on 2008-06-18.
  6. Macnair, T. "Hypothermia". BBC Health. Retrieved on 2008-06-18.
  7. "Hypothermia safety". United States Power Squadrons (January 23, 2007). Retrieved on 2008-02-19.
  8. Dawson, CP (1987). "Hypothermia Prevention: Survival in Cold Water". Minnesota Sea Grant. Retrieved on 2008-06-18.
  9. Hicks, R (January 2007). "Hypothermia". BBC Health. Retrieved on 2008-02-19.
  10. United States Coast Guard. "Recreational Boating Safety Information". United States Coast Guard. Retrieved on 2008-06-18.
  11. Bolte RG, Black PG, Bowers RS, Thorne JK, Corneli HM (1988). "The use of extracorporeal rewarming in a child submerged for 66 minutes". 'Journal of the American Medical Association' 260 (3): 377–379. doi:10.1001/jama.260.3.377. PMID 3379747. 
  12. New Scientist (2007). "The word: Paradoxical undressing - being-human". New Scientist. http://www.newscientist.com/channel/being-human/mg19426002.600-the-word-paradoxical-undressing.html. Retrieved on 2008-06-18. 
  13. Wedin B, Vanggaard L, Hirvonen J (July 1979). ""Paradoxical undressing" in fatal hypothermia". J. Forensic Sci. 24 (3): 543–53. PMID 541627. 

External links

Consequences of external causes (T15-T35, T66-T98, 930-959, 990-995)
General external causes
Foreign body - Burn - Frostbite
Other external causes
radiation/heat/light: Radiation poisoning - Hyperthermia - Heat syncope

reduced temperature: Hypothermia - Immersion foot - Chilblain

Aerosinusitis - Hypoxia - Barotrauma - Altitude sickness - Chronic mountain sickness - Decompression sickness - Asphyxia - Starvation

maltreatment (Physical abuse, Sexual abuse, Psychological abuse)

Motion sickness - Seasickness - Airsickness - Space adaptation syndrome

Electric shock - Anaphylaxis - Angioedema

Hypersensitivity (Allergy, Arthus reaction)

Subcutaneous emphysema
Certain early complications of trauma
embolism (Air, Fat) - Crush syndrome/Rhabdomyolysis - Compartment syndrome/Volkmann's contracture
Complications of surgical and medical care
Serum sickness - Malignant hyperthermia - Transfusion hemosiderosis - Herxheimer reaction - Graft-versus-host disease