Frostbite occurs when exposure to low temperatures causes freezing of the skin or other tissues. The initial symptom is typically numbness. This may be followed by clumsiness with a white or bluish color to the skin. Swelling or blistering may occur following treatment. The hands, feet, and face are most commonly affected. Complications may include hypothermia or compartment syndrome.
People who are exposed to low temperatures for prolonged periods, such as winter sports enthusiasts, military personnel, and homeless individuals, are at greatest risk. Other risk factors include drinking alcohol, smoking, mental health problems, certain medications, and prior injuries due to cold. The underlying mechanism involves injury from ice crystals and blood clots in small blood vessels following thawing. Diagnosis is based on symptoms. Severity may be divided into superficial 1st and 2nd degree or deep 3rd and 4th degree. A bone scan or MRI may help in determining the extent of injury.
Prevention is through wearing proper clothing, maintaining hydration and nutrition, avoiding low temperatures, and staying active without becoming exhausted. Treatment is by rewarming. This should be done only when refreezing is not a concern. Rubbing or applying snow to the affected part is not recommended. The use of ibuprofen and tetanus toxoid is typically recommended. For severe injuries iloprost or thrombolytics may be used. Surgery is sometimes necessary. Amputation, however, should generally be delayed for a few months to allow determination of the extent of injury.
The number of cases of frostbite is unknown. Rates may be as high as 40% a year among those who mountaineer. The most common age group affected is those 30 to 50 years old. Evidence of frostbite occurring in people dates back 5.000 years. Frostbite has also played an important role in a number of military conflicts. The first formal description of the condition was in 1813 by Dominique Jean Larrey, a physician in Napoleons army, during its invasion of Russia.
1. Signs and symptoms
Areas that are usually affected include cheeks, ears, nose and fingers and toes. Frostbite is often preceded by frostnip. The symptoms of frostbite progress with prolonged exposure to cold. Historically, frostbite has been classified by degrees according to skin and sensation changes, similar to burn classifications. However, the degrees do not correspond to the amount of long term damage. A simplification of this system of classification is superficial first or second degree or deep injury third or fourth degree.
1.1. Signs and symptoms First degree
- Early on, the primary symptom is loss of feeling in the skin. In the affected areas, the skin is numb, and possibly swollen, with a reddened border.
- First degree frostbite is superficial, surface skin damage that is usually not permanent.
- In the weeks after injury, the skins surface may slough off.
1.2. Signs and symptoms Second degree
- At this stage, lasting cold sensitivity and numbness can develop.
- In the weeks after injury, this hardened, blistered skin dries, blackens, and peels.
- In second degree frostbite, the skin develops clear blisters early on, and the skins surface hardens.
1.3. Signs and symptoms Third degree
- There can be longterm ulceration and damage to growth plates.
- In third degree frostbite, the layers of tissue below the skin freeze.
- In the weeks after injury, pain persists and a blackened crust eschar develops.
- Symptoms include blood blisters and "blue-grey discoloration of the skin".
1.4. Signs and symptoms Fourth degree
- Early symptoms include a colorless appearance of the skin, a hard texture, and painless rewarming.
- In fourth degree frostbite, structures below the skin are involved like muscles, tendon, and bone.
- Later, the skin becomes black and mummified. The amount of permanent damage can take one month or more to determine. Autoamputation can occur after two months.
The major risk factor for frostbite is exposure to cold through geography, occupation and/or recreation. Inadequate clothing and shelter are major risk factors. Frostbite is more likely when the bodys ability to produce or retain heat is impaired. Physical, behavioral, and environmental factors can all contribute to the development of frostbite. Immobility and physical stress such as malnutrition or dehydration are also risk factors. Disorders and substances that impair circulation contribute, including diabetes, Raynauds phenomenon, tobacco and alcohol use. Homeless individuals and individuals with some mental illnesses may be at higher risk.
3.1. Mechanism Freezing
In frostbite, cooling of the body causes narrowing of the blood vessels vasoconstriction. Temperatures below −4 °C 25 °F are required to form ice crystals in the tissues. The process of freezing causes ice crystals to form in the tissue, which in turn causes damage at the cellular level. Ice crystals can damage cell membranes directly. In addition, ice crystals can damage small blood vessels at the site of injury. Scar tissue forms when fibroblasts replace the dead cells.
3.2. Mechanism Rewarming
Rewarming causes tissue damage through reperfusion injury, which involves vasodilation, swelling edema, and poor blood flow stasis. Platelet aggregation is another possible mechanism of injury. Blisters and spasm of blood vessels vasospasm can develop after rewarming.
3.3. Mechanism Non-freezing cold injury
The process of frostbite differs from the process of non-freezing cold injury NFCI. In NFCI, temperature in the tissue decreases gradually. This slower temperature decrease allows the body to try to compensate through alternating cycles of closing and opening blood vessels vasoconstriction and vasodilation. If this process continues, inflammatory mast cells act in the area. Small clots microthrombi form and can cut off blood to the affected area known as ischemia and damage nerve fibers. Rewarming causes a series of inflammatory chemicals such as prostaglandins to increase localized clotting.
3.4. Mechanism Pathophysiology
The pathological mechanism by which frostbite causes body tissue injury can be characterized by four stages: Prefreeze, freeze-thaw, vascular stasis, and the late ischemic stage.
- Prefreeze phase: involves the cooling of tissues without ice crystal formation.
- Late ischemic phase: characterized by inflammatory events, ischemia and tissue death.
- Vascular stasis phase: marked by blood coagulation or the leaking of blood out of the vessels.
- Freeze-thaw phase: ice-crystals form, resulting in cellular damage and death.
Frostbite is diagnosed based on signs and symptoms as described above, and by patient history. Other conditions that can have a similar appearance or occur at the same time include:
- Pernio or chilblains are inflammation of the skin from exposure to wet, cold non-freezing conditions. They can appear as various types of ulcers and blisters.
- Trench foot is damage to nerves and blood vessels that results exposure to wet, cold non-freezing conditions. This is reversible if treated early.
- Bullous pemphigoid is a condition that causes itchy blisters over the body that can mimic frostbite. It does not require exposure to cold to develop.
- Levamisole toxicity is a vasculitis that can appear similar to frostbite. It is caused by contamination of cocaine by levamisole. Skin lesions can look similar those of frostbite, but do not require cold exposure to occur.
- Frostnip is similar to frostbite, but without ice crystal formation in the skin. Whitening of the skin and numbness reverse quickly after rewarming.
People who have hypothermia often have frostbite as well. Since hypothermia is life-threatening this should be treated first. Technetium-99 or MR scans are not required for diagnosis, but might be useful for prognostic purposes.
The Wilderness Medical Society recommends covering the skin and scalp, taking in adequate nutrition, avoiding constrictive footwear and clothing, and remaining active without causing exhaustion. Supplemental oxygen might also be of use at high elevations. Repeated exposure to cold water makes people more susceptible to frostbite. Additional measures to prevent frostbite include:
- Recognizing early signs of frostnip and frostbite
- Using chemical or electric warming devices
- Avoiding moisture, including in the form of sweat and/or skin emollients
- Avoiding alcohol and drugs that impair circulation or natural protective responses
- Avoiding temperatures below −15 °C 5 °F
- Layering clothing
Individuals with frostbite or potential frostbite should go to a protected environment and get warm fluids. If there is no risk of re-freezing, the extremity can be exposed and warmed in the groin or underarm of a companion. If the area is allowed to refreeze, there can be worse tissue damage. If the area cannot be reliably kept warm, the person should be brought to a medical facility without rewarming the area. Rubbing the affected area can also increase tissue damage. Aspirin and ibuprofen can be given in the field to prevent clotting and inflammation. Ibuprofen is often preferred to aspirin because aspirin may block a subset of prostaglandins that are important in injury repair.
The first priority in people with frostbite should be to assess for hypothermia and other life-threatening complications of cold exposure. Before treating frostbite, the core temperature should be raised above 35 °C. Oral or intravenous IV fluids should be given.
Other considerations for standard hospital management include:
- wound care: blisters can be drained by needle aspiration, unless they are bloody hemorrhagic. Aloe vera gel can be applied before breathable, protective dressings or bandages are put on.
- tetanus toxoid: should be administered according to local guidelines. Uncomplicated frostbite wounds are not known to encourage tetanus.
- pain control: NSAIDs or opioids are recommended during the painful rewarming process.
- antibiotics: if there is trauma, skin infection cellulitis or severe injury
6.1. Treatment Rewarming
If the area is still partially or fully frozen, it should be rewarmed in the hospital with a warm bath with povidone iodine or chlorhexidine antiseptic. Active rewarming seeks to warm the injured tissue as quickly as possible without burning. The faster tissue is thawed, the less tissue damage occurs. According to Handford and colleagues, "The Wilderness Medical Society and State of Alaska Cold Injury Guidelines recommend a temperature of 37–39 °C, which decreases the pain experienced by the patient whilst only slightly slowing rewarming time." Warming takes 15 minutes to 1 hour. Rewarming can be very painful, so pain management is important.
6.2. Treatment Medications
People with potential for large amputations and who present within 24 hours of injury can be given TPA with heparin. These medications should be withheld if there are any contraindications. Bone scans or CT angiography can be done to assess damage.
Blood vessel dilating medications such as iloprost may prevent blood vessel blockage. This treatment might be appropriate in grades 2–4 frostbite, when people get treatment within 48 hours. In addition to vasodilators, sympatholytic drugs can be used to counteract the detrimental peripheral vasoconstriction that occurs during frostbite.
6.3. Treatment Surgery
Various types of surgery might be indicated in frostbite injury, depending on the type and extent of damage. Debridement or amputation of necrotic tissue is usually delayed unless there is gangrene or systemic infection sepsis. This has led to the adage "Frozen in January, amputate in July". If symptoms of compartment syndrome develop, fasciotomy can be done to attempt to preserve blood flow.
Tissue loss and autoamputation are potential consequences of frostbite. Permanent nerve damage including loss of feeling can occur. It can take several weeks to know what parts of the tissue will survive. Time of exposure to cold is more predictive of lasting injury than temperature the individual was exposed to. The classification system of grades, based on the tissue response to initial rewarming and other factors is designed to predict degree of longterm recovery.
7.1. Prognosis Grades
Grade 1: if there is no initial lesion on the area, no amputation or lasting effects are expected
Grade 2: if there is a lesion on the distal body part, tissue and fingernails can be destroyed
Grade 3: if there is a lesion on the intermediate or near body part, autoamputation and loss of function can occur
Grade 4: if there is a lesion very near the body such as the carpals of the hand, the limb can be lost. Sepsis and/or other systemic problems are expected.
A number of long term sequelae can occur after frostbite. These include transient or permanent changes in sensation, paresthesia, increased sweating, cancers, and bone destruction/arthritis in the area affected.
There is a lack of comprehensive statistics about the epidemiology of frostbite. In the United States, frostbite is more common in northern states. In Finland, annual incidence was 2.5 per 100.000 among civilians, compared with 3.2 per 100.000 in Montreal. Research suggests that men aged 30–49 are at highest risk, possibly due to occupational or recreational exposures to cold.
Frostbite has been described in military history for millennia. The Greeks encountered and discussed the problem of frostbite as early as 400 BCE. Researchers have found evidence of frostbite in humans dating back 5.000 years, in an Andean mummy. Napoleons Army was the first documented instance of mass cold injury in the early 1800s. According to Zafren, nearly 1 million combatants fell victim to frostbite in the First and Second World Wars, and the Korean War.
10. Society and culture
Several notable cases of frostbite include: Captain Lawrence Oates, an English army captain and Antarctic explorer who in 1912 died of complications of frostbite; noted American rock climber Hugh Herr, who in 1982 lost both legs below the knee to frostbite after being stranded on Mount Washington New Hampshire in a blizzard; Beck Weathers, a survivor of the 1996 Mount Everest disaster who lost his nose and hands to frostbite; Scottish mountaineer Jamie Andrew, who in 1999 had all four limbs amputated due to sepsis from frostbite sustained climbing the Mont Blanc massif.
11. Research directions
Evidence is insufficient to determine whether or not hyperbaric oxygen therapy as an adjunctive treatment can assist in tissue salvage. Cases have been reported, but no randomized control trial has been performed on humans.
Medical sympathectomy using intravenous reserpine has also been attempted with limited success. Studies have suggested that administration of tissue plasminogen activator tPa either intravenously or intra-arterially may decrease the likelihood of eventual need for amputation.
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- cooling quickly, with the sudden drop in temperature sufficient to cause frostbite to the applied area. Medical studies have noted an increase of this practice