FROSTBITEKathryn Moser, RN, MSN, AGACNP,
EMT-BUniversity of Colorado Hospital
Objectives
• Define frostbite • Discuss contributing factors• Describe the progression of frostbite injury• Name strategies to minimize risk of frostbite• Review how to recognize and diagnose
frostbite• Discuss the treatment of frostbite• Identify long-term effects and prognosis• Discuss challenges unique to alpine
environment
Frostbite
What is Frostbite?
• Injury to the skin and underlying tissues as a result of environmental cold exposure
Mechanism of Injury
• Cooling of tissue and vasoconstriction = decreased sensation or numbness
• Ice crystals form inside (fast) or outside cells (slow) causing damage to cell membranes and eventual cell death
• Cycles of vasoconstriction and dilation cause lack of oxygen to tissues and clot formation
• Tissue hypoxia results in tissue death, clot formation, and inflammation through release of chemical mediators
• Damage is increased if refreezing occurs
Contributing Factors
Environmental Factors• Temperature, Windchill and Length
of Exposure
Individual Factors: Clothing
• “Frostbite is more likely to happen to uncovered skin”
• Tight-fitting clothing may produce constriction hinders blood circulation
• Wet clothing transmits heat from the body into the environment
Individual Factors: Comorbidities
• Disease states that alter tissue perfusion may predispose to frostbite – Diabetes, Atherosclerosis,
Neuropathies…
Individual Factors• Drugs/Alcohol/ Smoking
– Putting on clothes in response to cold requires a conscious decision
– Alcohol promotes peripheral vascular dilation and increases heat loss more susceptible to frostbite• interferes the body’s ability to regulate
temperature by blunting the shiver reflex
– Smoking causes vasoconstriction and decreases circulation
Individual Factors Individual Factors
• Unique to the alpine environment– Altitude – baseline hypoxia– Concurrent trauma –Hypothermia– Dehydration/poor nutrition–Not having adequate expertise for the
environment (lacking a guide)
Recognizing and Diagnosing Frostbite
• The anatomic sites most susceptible to frostbite include:–Hands– Feet– Exposed tissues• Ears• Nose• Lips
Diagnosing Frostbite• Several diagnostic tests have been used to
attempt to predict severity and prognosis of frostbite injury– Plain radiographs– Infrared thermography– Angiography– Bone scanning– Laser Doppler– Digital plethysmography– MRI/MRA
Early Signs and Symptoms
• Shivering is the first sign the body is losing heat
• Tingling and burning are also early signs to get out of the cold or move around vigorously
Late Signs and Symptoms
• Numbness (>75%)• Purplish blood-filled
blisters • White or grayish-yellow
skin area• Skin that is unusually firm
or waxy
Classifying Frostbite• Superficial frostbite injury– numbness and redness– White, yellowish or gray firm plaque in the area of injury– Clear or milky fluid in blisters– No tissue loss
Classifying Frostbite• Deep Frostbite Injury – Purple, blood-containing fluid filled blisters
(after re-warming)– Skin feels hard and cold– Injury has extended through a variable portion
of the dermis or may even involve muscle and bone
Frostbite! Now What?
Treatments and Interventions…in the field
• First priority is do no further harm• Remove jewelry and wet/cold clothing• Treat the hypothermia• Avoid walking on frostbitten feet or toes
– But… it is better to walk with frozen feet than to attempt to rewarm and then freeze again and if it is the only way to evacuate…
• Avoid thawing an affected area if you suspect refreezing
• Don’t rewarm in the field, unless you can keep it thawed
Rewarming
• Rapid rewarming is the single most effective therapy for frostbite
• Rewarm the frostbitten area if there is no danger of refreezing
• Rewarming should be avoided if it cannot be maintained (freeze-thaw-freeze cycle)
Rewarming “Do’s”
• Do: rapidly rewarm the affected area in circulating water at 37-39 degrees C (99-102 degrees F).
• Do: Continue warming for 15-30 minutes (up to 1 hour for deep frostbite injuries) until thawing is complete on clinical assessment• Clinical assessment: distal area of
the extremity is flushed, soft, and pliable
Rewarming “Dont’s”• Don’t: end the rewarming process prematurely
because of reperfusion pain (may need narcs)• Don’t: use mechanical trauma (massaging or
rubbing the area with snow or warm hands) • Don’t: rewarm at higher temperatures• Don’t: use dry heat (using a fire,
heater/heating pad, exhaust, or a stove)– This can lead to burns
• Don’t drain blisters unless is necessary and are clear
Pharmacologic Treatments and Interventions
• Analgesics for pain relief are indicated during and after rewarming
• Topical aloe vera cream is implicated to inhibit the arachidonic cascade, especially thromboxane synthesis
• t-PA
The next step is..The next step is..
• Transfer to a hospital/clinic familiar with the treatment of frostbite while protecting from cold
• Keep extremity elevated• No weight bearing• Update tetanus• Analgesia – Ibuprofen and may need
narcotics
Inpatient Non-Pharmacologic Treatment
and Interventions• Rapid rewarming of affected area (if not done)• Vascular checks every hour• Pain management• Wound care- supportive– focused on maintaining a clean wound environment to
protect skin from further damage
• Surgical intervention including the possibility of amputation
• Physical therapy to prevent long term contracture or dysfunction
• Rehabilitation
It’s not just amputation It’s not just amputation anymore, but what works?anymore, but what works?
• NSAIDS – Ibuprofen, Aspirin, Naproxen block the inflammatory mediators
• Vasodilator therapy (Alaska method) – improve blood flow• Iloprost (prostaglandin)– not FDA approved for frostbite• Dextran – fix the dehydration• t-PA – bust the clots• Hyperbaric oxygen therapy – get more oxygen
• ALL of these methods are supported by some evidence, but not one is clearly documented by research to be the best therapy.
What am I supposed to do?What am I supposed to do?
• References such as the Alaska Cold Injuries Guidelines and Wilderness Medical Society Frostbite Practice Guidelines have some suggestions and levels of evidence for recommendations.
• This began a discussion at University of Colorado Hospital..
Local Problem
• Complications from frostbite injuries can be devastating and include permanent damage and/or amputation to the affected tissue or limb
• Literature reports the incidence of digital amputation to be more than 40% without effective treatment.
Local Problem
• Standardized protocols were lacking for treatment of severe frostbite
• Treatment for frostbite injuries typically
included: rewarming antibiotics topical creams amputation watching and waiting
Literature ReviewLiterature ReviewStep 1:
Current Evidence• The use of t-PA as a thrombolytic for the
treatment of frostbite has been documented in two small, single-center studies1, 3
• University of Utah (Bruen et al., 2007) • Hennepin County Medical Center (Twomey,
Peltier, & Zera, 2005)
• T-PA improved revascularization by dissolving clots
• T-PA assisted in restoring tissue perfusion minimizing the adverse effects of frostbite
Current Evidence
• Both studies supported the use of t-PA to decrease progression of frostbite injury to amputation
• Bruen et. al. (2007) showed a 10% incidence of amputation in patients who received t-PA within 24 hours of injury compared to 41% in patients who did not receive t-PA
Background on T-PA
• T-PA has been approved by the FDA for management of: acute myocardial infarction acute ischemic stroke acute massive pulmonary embolism
• Due to it’s mechanism of action, t-PA comes with high
risk for bleeding, requiring specific contraindications and dosing parameters for safe administration.
Development of Standardized Development of Standardized TherapyTherapy
• Was a process that took 2 years• Involved all members of the Burn
Team• Including developing standardized
protocol, order sets, and guidelines• We started collecting data on
frostbite outcomes as part of a quality improvement project
Indications
1. Absent or weak doppler pulses in limbs and/ or digits and no improvement on rapid rewarmingOR no perfusion on bone scan
2. Within 24hrs of frostbite injury
* Note: BP must be less than 180 systolic and 105 diastolic prior to initiating infusion
Contraindications1. Concurrent or recent trauma, stroke or bleeding
2. Recent surgery or hemorrhage
3. Multiple freeze-thaw cycles
4. More than 48 hours of cold exposure
5. Severe uncontrolled hypertension (systolic blood pressure greater than 185mmHg and/or diastolic blood pressure greater than 110mmHg)
6. Pregnancy
7. Current anticoagulant therapy (INR greater than 3)
8. Thrombocytopenia (platelets less than 100x109/L )
9. History of gastro-intestinal bleeding
T-PA Dosing
Bolus Dose
Continuous Dose
Total/ Maximum (mg)
Total Administration Time
Acute MI 15mg 50mg over 30min then35mg over 60 min
100mg 2 hours
Acute Ischemic Stroke
0.9mg/kg 0.81mg/kg over 1 hour
90mg 1 hour
Acute PE 100mg over 2 hours
100mg 2 hours
Severe Frostbite
0.15mg/kg
0.15mg.kg over 6 hours
100mg 6 hours
N=10
Complications
• No significant bleeding complications since the implementation of this protocol– 1 patient had bilateral thigh hematomas
and 1 patient had a hematoma on forehead without a bleed on CT
• No transfusions required
• T-PA did not have to be stopped after initiating administration
ConclusionsConclusions
• Amputation rate lowered – 22-31% in patients not eligible for t-PA– 0-0.2% in patients who received within 48 hours
• Administration of thrombolytics dramatically reduces the rate of amputation in patients with severe frostbite
• New data is emerging to suggest that t-PA is most effective within 6 hours after injury.
SEQUALE AND PROGNOSIS
Frostbite Sequale• Throbbing pain begins 2 to 3 days after
rewarming and continues for a variable period, even after dead tissue becomes demarcated (can take up to 6 months)• In patients without tissue loss, symptoms usually
subside within 1 month
• Cold sensitivity
• Sensory loss
• Hyperhidrosis
Prognosis
• Complications from frostbite injuries can be devastating and include permanent damage and/or amputation to the affected tissue or limb
• Literature reports the incidence of digital amputation to be more than 40% without effective treatment
Future DirectionsFuture Directions
Hyperbaric MedicineHyperbaric Medicine
•Increase RBC deformability•Decreases edema•Improves nutritive skin blood flow•Improves oxygenation•Helps to reverse the reperfusion injury•Promising case studies
Hyperbaric MedicineHyperbaric Medicine
• Hyperbaric oxygen treatment in deep frostbite of both hands in a boy–11 yo boy, severe frostbite 6 fingers–2 weeks hyperbaric treatment
Hyperbaric MedicineHyperbaric Medicine
• Frostbite in a Mountain Climber Treated with Hyperbaric Oxygen: Case Report–28 yo female mountain climber–10 finger involvement–Delay treatment of 2 weeks–Hyperbaric treatment over 3 months (21 treatments)
Hyperbaric Medicine and Hyperbaric Medicine and AltitudeAltitude
• Recent article suggests the use of portable hyperbaric chamber (Gamow bag) in expedition medicine may be used to improve tissue perfusion during rewarming and to protect from further re-freezing.
• Also may help to speed up re-warming process.
• If you have the equipment available, may be of benefit.
IloprostIloprost
• Has shown a 0% amputation rate in one small scale study using IV form in Chamonix, France of cases of high altitude frostbite.
• No other studies or literature to support use.
• Currently not being used in the US for treatment of frostbite.
• Further research is needed as “this may someday become the standard of care.” – Alaska Cold Injuries Guidelines
Selected Citations• Auerbach, Paul S (2012). Wilderness Medicine (6th ed.). Elsevier• Bruen, K., Ballard, J., Cochran, A., Edelman, L., Morris, S., &
Saffle, J. (2007). Reduction of the incidence of amputation in frostbite injury with thrombolytic therapy. Archives of Surgery. 142, 546-553. http://doi: 10.1097/00005373-200408000-00120
• Cauchy, E., Leal, S., , Magnan, M., and Nespoulet, H. Portable hyperbaric chamber and management of hypothermia and frostbite: An evident utilization. High Altitude Medicine & Biology. March 2014, 15(1): 95-96. doi:10.1089/ham.2013.1095.
• Cauchy, E., Cheguillaume, B., & Chetaille, E. (2011). A controlled trial of a prostacyclin and rt-PA in the treatment of severe frostbite. The New England Journal of Medicine. 364(2), 189-190.
• Department of Health and Social Services, Division of Public Health
Section of Community Health and EMS: State of Alaska cold injuries guidelines,
2003 version rev 2005. http://www.chems.alaska.gov.
CitationsCitations• Folio, L. R., Arken, K., & Butler, W. P. (2007). Frostbite in a mountain
climber treated with hyperbaric oxygen: Case report. Military Medicine, 172, 560-564.
• Handford, C., Buxton, P., Russell, K., Imray, C. E., McIntosh, S. E., Freer, L., ., Imray, C. H. (2014). Frostbite: a practical approach to hospital management. Extreme Physiology and Medicine, 3, 7.
• Harirchi, I., Arvin, A., Vash, J. H., & Zafarmand, V. (2005). Frostbite: incidence and predisposing factors in mountaineers. British Journal of Sports Medicine, 39(12), 898-901.
• Hashmi, M. A., Rashid, M., Haleem, A., Bokhari, S. A., & Hussain, T. (1998). Frostbite: epidemiology at high altitude in the Karakoram mountains. Annals of the Royal College of Surgeons of England, 80(2), 91-95.
• Heimburg, D. Noah, E. M., Sieckmann, U. P., & Pallua, N. (2000). Hyperbaric oxygen treatment in deep frostbite of both hands in a boy. Burns, 27, 404-408.
• Imray, C., Grieve, A., & Dhillon, S. (2009). Cold damage to the extremities: Frostbite and non-freezing cold injuries. Postgraduate Medical Journal. 85,
481- 488. http://doi:10.1136/pgmj.2008.068635 2009;85;481-488
CitationsCitations• Johnson, A. R., Jensen, H. L., Peltier, G., & DelaCruz, E. (2011). Efficacy
of intravenous tissue plasminogen activator in frostbite patients and presentation of a treatment protocol for frostbite patients. Foot and Ankle Specialist, 4(6), 344-348.
• McIntosh, S. E., Hamonko, M., Freer, L., Grissom, C. K., Auerbach, P. S., Rodway, G. W., . . . . . . Hackett, P. H. (2011). Wilderness medical society practice guidelines for the prevention and treatment of frostbite. Wilderness and Environmental Medicine, 22, 156-166.
• McLeron, K. (ed). (2003). Frostbite. State of Alaska Cold Injuries Guidelines. 7th ed. Retrieved from http://www.hypothermia.org/Hypothermia_Ed_pdf/Alaska-Cold-Injuries.pdf.
• Twomey, J., Peltier, G., & Zera, R. (2005). An open-label study to evaluate
the safety and efficacy of tissue plasminogen activator in treatment of severe frostbite. The Journal of Trauma: Injury, Infection, and Critical
Care. 59, 1350-1355. http://doi: 10.1001/archsurg.142.6.546
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