Frostbite

See also: Accidental hypothermia
Frostbite
Classification and external resources
ICD-10 T33.-T35.
ICD-9 991.0-991.3
DiseasesDB 31167
MedlinePlus 000057
eMedicine emerg/209 med/2815 derm/833 ped/803
MeSH D00562

Frostbite (congelatio in medical terminology) is the medical condition where localized damage is caused to skin and other tissues due to extreme cold. Frostbite is most likely to happen in body parts farthest from the heart and those with large exposed areas. The initial stages of frostbite are sometimes called "frostnip".

Contents

Classification

Cold injuries can result in a number of distinct conditions including:

Mechanism

Frostbitten hands

At or below 0 °C (32 °F), blood vessels close to the skin start to constrict. The same response may also be a result of exposure to high winds. This constriction helps to preserve core body temperature. In extreme cold, or when the body is exposed to cold for long periods, this protective strategy can reduce blood flow in some areas of the body to dangerously low levels. This lack of blood leads to the eventual freezing and death of skin tissue in the affected areas. There are four degrees of frostbite. Each of these degrees has varying degrees of pain.[2]

This is called frostnip and this only affects the surface skin, which is frozen. On onset there is itching and pain, and then the skin develops white and yellow patches and becomes numb. The area affected by frostnip usually does not become permanently damaged as only the skin's top layers are affected. Long-term sensitivity to both heat and cold can sometimes happen after suffering from frostnip.

If freezing continues, the skin may freeze and harden, but the deep tissues are not affected and remain soft and normal. Second degree injury usually blisters 1-2 days after becoming frozen. The blisters may become hard and blackened, but usually appear worse than they are. Most of the injuries heal in one month but the area may become permanently sensitive to both heat and cold.

If the area freezes further, deep frostbite occurs. The muscles, tendons, blood vessels, and nerves will all freeze. The skin is hard, feels waxy, and use of the area is lost temporarily, and in severe cases, permanently. The deep frostbite results in areas of purplish blisters which turn black and which are generally blood-filled. Nerve damage in the area can result in a loss of feeling. This extreme frostbite may result in fingers and toes being amputated if the area becomes infected with gangrene. If the frostbite has gone on untreated they may fall off. The damage done to the area by the freezing process of the frostbite may take several months to find out and this often delays surgery to remove the dead tissue.[3]

Risk factors

Risk factors for frostbite include using beta-blockers and having conditions such as diabetes and peripheral neuropathy.

Causes

Factors that contribute to frostbite include extreme cold, inadequate clothing, wet clothes, wind chill, and poor circulation. Poor circulation can be caused by tight clothing or boots, cramped positions, fatigue, certain medications, smoking, alcohol use, or diseases that affect the blood vessels, such as diabetes.

Liquid nitrogen and other cryogenic liquids can cause frostbite to people working in chemical laboratories even with brief exposure.

If the weather is very cold and it is windy, wind chill can greatly reduce the time it takes for frostbite to set in.

Diabetes can also sometimes lead to frostbite, if diabetics take trips to ice-cold places.[4]

Treatment

Treatment of frostbite centers on rewarming (and possibly thawing) of the affected tissue. The decision to thaw is based on proximity to a stable, warm environment. If rewarmed tissue ends up refreezing, more damage to tissue will be done. Excessive movement of frostbitten tissue can cause ice crystals that have formed in the tissue to do further damage. Splinting and/or wrapping frostbitten extremities is therefore recommended to prevent such movement. For this reason, rubbing, massaging, shaking, or otherwise applying physical force to frostbitten tissues in an attempt to rewarm them can be harmful.[5] Caution should be taken not to rapidly warm up the affected area until further refreezing is prevented. Warming can be achieved in one of two ways:

Passive rewarming[6] involves using body heat or ambient room temperature to aid the person's body in rewarming itself. This includes wrapping in blankets or moving to a warmer environment.[7]

Active rewarming[8] is the direct addition of heat to a person, usually in addition to the treatments included in passive rewarming. Active rewarming requires more equipment and therefore may be difficult to perform in the prehospital environment.[9] When performed, active rewarming seeks to warm the injured tissue as quickly as possible without burning them. This is desirable as the faster tissue is thawed, the less tissue damage occurs.[10] Active rewarming is usually achieved by immersing the injured tissue in a water-bath that is held between 40 - 42 C. Warming of peripheral tissues can increase blood flow from these areas back to the bodies' core. This may produce a decrease in the bodies' core temperature and increase the risk of cardiac dysrhythmias.[11]

Surgery

Debridement and or amputation of necrotic tissue is usually delayed. This has led to the adage "Frozen in January, amputate in July".[12] With exceptions only being made for signs of infections or gas gangrene.[13]

Prognosis

A number of long term sequelae can occur after frost bite. These include: transient or permanent changes in sensation, electric shocks, increased sweating, cancers, and bone destruction / arthritis in the area affected.[14]

History

During the second world war Nazi Germany and Japan conducted numerous cold experiments on prisoners. See Nazi human experimentation and Unit 731.

Research

Evidence is insufficient to determine whether or not hyperbaric oxygen therapy as an adjunctive treatment can assist in tissue salvage.[15] There have been case reports but few actual research studies to show the effectiveness.[16][17][18][19][20]

Medical sympathectomy using intravenous reserpine has also been attempted with limited success.[21]

References

  1. Marx, John (2010). Rosen's emergency medicine: concepts and clinical practice 7th edition. Philadelphia, PA: Mosby/Elsevier. p. 1862. ISBN 9780323054720. 
  2. Frostbite, eMedicineHealth.com, http://www.emedicinehealth.com/frostbite/article_em.htm, retrieved 4/3/10
  3. Definition of Frostbite, MedicineNet.com, http://www.medterms.com/script/main/art.asp?articlekey=3522, retrieved 4/3/10
  4. Eric Perez, MD.National Institute of Health. Retrieved May 18, 2006.
  5. Mistovich, Joseph; Brent Haffen, Keith Karren (2004). Prehospital Emergency Care. Upsaddle River, NJ: Pearson Education. pp. 506. ISBN 0-13-049288-4. 
  6. Mistovich, Joseph; Brent Haffen, Keith Karren (2004). Prehospital Emergency Care. Upsaddle River, NJ: Pearson Education. p. 504. ISBN 0-13-049288-4. 
  7. Roche-Nagle G, Murphy D, Collins A, Sheehan S (June 2008). "Frostbite: management options". Eur J Emerg Med 15 (3): 173–5. doi:10.1097/MEJ.0b013e3282bf6ed0. PMID 18460961. http://meta.wkhealth.com/pt/pt-core/template-journal/lwwgateway/media/landingpage.htm?an=00063110-200806000-00012. Retrieved 2008-06-30. 
  8. Mistovich, Joseph; Brent Haffen, Keith Karren (2004). Prehospital Emergency Care. Upsaddle River, NJ: Pearson Education. pp. 504. ISBN 0-13-049288-4. 
  9. Mistovich, Joseph; Brent Haffen, Keith Karren (2004). Prehospital Emergency Care. Upsaddle River, NJ: Pearson Education. pp. 506. ISBN 0-13-049288-4. 
  10. Mistovich, Joseph; Brent Haffen, Keith Karren (2004). Prehospital Emergency Care. Upsaddle River, NJ: Pearson Education. pp. 506. ISBN 0-13-049288-4. 
  11. Marx, John (2010). Rosen's emergency medicine: concepts and clinical practice 7th edition. Philadelphia, PA: Mosby/Elsevier. p. 1864. ISBN 9780323054720. 
  12. Golant, A; Nord, RM; Paksima, N; Posner, MA (Dec 2008). "Cold exposure injuries to the extremities.". J Am Acad Orthop Surg 16 (12): 704–15. PMID 19056919. 
  13. McGillion, R (Oct 2005). "Frostbite: case report, practical summary of ED treatment.". J Emerg Nurs 31 (5): 500–2. doi:10.1016/j.jen.2005.07.002. PMID 16198741. 
  14. Marx, John (2010). Rosen's emergency medicine: concepts and clinical practice 7th edition. Philadelphia, PA: Mosby/Elsevier. p. 1866. ISBN 9780323054720. 
  15. Marx, John (2010). Rosen's emergency medicine: concepts and clinical practice 7th edition. Philadelphia, PA: Mosby/Elsevier. ISBN 9780323054720. 
  16. Finderle Z, Cankar K (April 2002). "Delayed treatment of frostbite injury with hyperbaric oxygen therapy: a case report". Aviat Space Environ Med 73 (4): 392–4. PMID 11952063. 
  17. Folio LR, Arkin K, Butler WP (May 2007). "Frostbite in a mountain climber treated with hyperbaric oxygen: case report". Mil Med 172 (5): 560–3. PMID 17521112. 
  18. Gage AA, Ishikawa H, Winter PM (1970). "Experimental frostbite. The effect of hyperbaric oxygenation on tissue survival". Cryobiology 7 (1): 1–8. doi:10.1016/0011-2240(70)90038-6. PMID 5475096. http://linkinghub.elsevier.com/retrieve/pii/0011-2240(70)90038-6. Retrieved 2008-06-30. 
  19. Weaver LK, Greenway L, Elliot CG (1988). "Controlled Frostbite Injury to Mice: Outcome of Hyperbaric Oxygen Therapy.". J. Hyperbaric Med 3 (1): 35–44. http://archive.rubicon-foundation.org/4363. Retrieved 2008-06-30. 
  20. Ay H, Uzun G, Yildiz S, Solmazgul E, Dundar K, Qyrdedi T, Yildirim I, Gumus T (2005). "The treatment of deep frostbite of both feet in two patients with hyperbaric oxygen. (abstract)". Undersea Hyperb Med. 32 (1 (supplement)). ISSN 1066-2936. OCLC 26915585. http://archive.rubicon-foundation.org/1629. Retrieved 2008-06-30. 
  21. Marx, John (2010). Rosen's emergency medicine: concepts and clinical practice 7th edition. Philadelphia, PA: Mosby/Elsevier. p. 1866. ISBN 9780323054720. 

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