Frostbite is a cold-related injury in which body tissues begin to freeze. Frostbite can affect any part of the body that is exposed to extreme cold for an extended period of time. This period of time is reduced as the ambient temperature drops. When subjected to cold, blood vessels throughout the body constrict to preserve heat; this means that the body biochemically prioritizes keeping its core warm over the extremities.
With frostnip (early-stage frostbite or the near-freezing of tissues), the skin becomes red, cold to the touch and may begin to go numb.1 If the skin is warmed soon enough after exposure, there is usually no permanent damage, but continued exposure to cold can result in superficial frostbite.
In superficial frostbite, ice crystals begin to form within the skin as it freezes. This can cause permanent damage to the tissue affected. At this stage, the skin may appear white and fluid-filled blisters can appear. Naturally, this may be difficult to detect in wild animals, as their bodies are covered with a fur coat. In cases of deep frostbite, large blisters form, and the tissue will often turn black and hard as it necrotizes.2
The Chinese water deer (Hydropotes inermis) is a small deer whose native range includes the lower Yangtze Basin of east-central China and in Korea. The species was also introduced in England and France in the late 1800s and subsequently became wild.3 Since then, it has been introduced into many countries, including the United States.
Chinese water deer—sometimes simply called “water deer”—can usually be found among tall reeds, along rivers, and in tall grass on mountains and cultivated fields.4 They also inhabit swampy regions and occasionally, open grasslands. They are adept at hiding, strong swimmers, and need very little cover to provide them with shelter.5
Chinese water deer are small in size, ranging in length from 25 to 30 inches. They have a short tail, and their hair is thick and coarse.5 The top of the face is grayish and reddish brown, the chin and upper throat are whitish, and the back and sides are usually a uniform yellowish brown, finely striped with black.3 Both sexes lack antlers, but the upper canine teeth of the males are enlarged, forming fairly long, slightly curved tusks. These upper canines are the most conspicuous feature of the bucks.6
The chemical immobilization of Chinese water deer can require extended periods of immobility in the captured animal, particularly those in North America and Europe. While hypothermia is an inherent risk to any animal undergoing chemical immobilization regardless of ambient temperature, frostbite is an even greater risk during the winter months.
Frostbite is divided into four overlapping phases:
Frostbite is classified into four degrees of injury that follow the classification schemes for thermal burn injury. These are based on acute physical findings and advanced imaging after rewarming. Early stages of frostbite are to be differentiated from frostnip, which is a superficial nonfreezing cold injury associated with intense vasoconstriction on exposed skin. As indicated earlier, frostnip may, however, precede frostbite. In these cases, ice crystals do not form within the tissue and tissue loss does not occur.7,8
One variation (favored by McIntosh, et. al.) involves a 2-tier classification scheme:
It should be noted that the severity of frostbite may vary within a single extremity.
Prevention is a far better methodology than treatment for frostbite, which is usually not appreciably improved by treatment. Underlying medical problems and the chemical immobilization event itself can increase risk of frostbite, so prevention must address both health-related and environmental aspects. Frostbite injury usually occurs when tissue heat loss exceeds the ability of local tissue perfusion to prevent freezing of soft tissues. The team in the field must ensure adequate tissue perfusion and minimize heat loss to prevent frostbite.7
Preventive measures to ensure local tissue perfusion include:
Measures should also be taken to minimize exposure of the animal’s tissues to cold, such as:
Since the time that a water deer’s extremities can remain numb before developing frostbite cannot be determined in the chemically immobilized animal, any extremity at risk for frostbite (typically indicated by pale color) should be warmed.8
If a water deer’s body part is frozen in the field, the frozen tissue should be protected from further damage.1,7 Then, a decision must be made whether or not to thaw the tissue. If environmental conditions are such that thawed tissue could refreeze, it is safer to keep the affected part frozen until a thawed state can be maintained. Frostbite thaws spontaneously and should be allowed to do so if rapid rewarming cannot be easily achieved.
Hypothermia frequently accompanies frostbite and causes peripheral vasoconstriction that impairs blood flow to the extremities. Mild hypothermia may be treated concurrently with frostbite injury. Moderate and severe hypothermia should be treated effectively before treating frostbite injury.7
Vascular stasis can result from frostbite injury, thus appropriate hydration and avoidance of hypovolemia are important for frostbite recovery. Intravenous normal saline should be given to maintain normal urine output. IV fluids should optimally be warmed before infusion and infused in small, rapid boluses, as slow infusion can result in fluid cooling and even freezing as it passes through tubing. Fluid administration should be optimized to prevent clinical dehydration.8,9
Intravenous low molecular weight dextran (LMWD) decreases blood viscosity by preventing red blood cell aggregation and formation of microthrombi and can be given in the field once it has been warmed. In some animal studies, the extent of tissue necrosis was found to be significantly less than in control subjects when LMWD was used, and was more beneficial if given early.7,8
The use of LMWD has not been evaluated in combination with other treatments such as thrombolytics. LMWD should be given if the animal is not being considered for other systemic treatments, such as thrombolytic therapy.7
Nonsteroidal anti-inflammatory drugs (NSAIDs) block the arachidonic acid pathway and decrease production of prostaglandins and thromboxanes. These can lead to vasoconstriction, dermal ischemia, and further tissue damage.1,2 No studies have demonstrated that any particular anti-inflammatory agent or dosing is clearly related to outcome, however. One rabbit ear model study showed 23% tissue survival with aspirin versus 0% in the control group.8 However, aspirin theoretically blocks production of certain prostaglandins that are beneficial to wound healing,9 so the authors of the rabbit ear model study recommended the use of ibuprofen rather than aspirin.
1McIntosh, S., et. al. Clinical Practice Guidelines for the Prevention and Treatment of Frostbite: 2019 Update. Wilderness Medical Society Clinical Practice Guidelines, Volume 30, Issue 4, Supplement S19-S32, December 01, 2019.
2McIntosh, S.E., et. al. Wilderness Medical Society practice guidelines for the prevention and treatment of frostbite: 2014 update.Wilderness Environ Med. 2014; 25: S43-S54
3mammal.org.uk.
4britannica.com.
5bds.org.uk.
6animaldiversity.org.
7Mazur P. Causes of injury in frozen and thawed cells. Fed Proc. 1965; 24: S175-S182
8Lange K., et. al. The functional pathology of frostbite and the prevention of gangrene in experimental animals and humans.Science. 1945; 102: 151-152.
9Cauchy E., et. al. Retrospective study of 70 cases of severe frostbite lesions: a proposed new classification scheme. Wilderness Environ Med. 2001; 12: 248-255.