Burn Triage and Treatment.doc
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Transcript of Burn Triage and Treatment.doc
Burn Triage and Treatment: Thermal Injuries
General Information Diagnosis of Burns American Burn Association Burn Unit Referral Criteria Treatment Special Burns American Burn Association Information ReferencesCaveat: This page describes the diagnosis and treatment of skin injury due tothermal effects.
For skin injury due toradiation effects, see REMM'sCutaneous Radiation Syndromepage.
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General Information
After a radiation mass casualty incident, especially anuclear detonation, trauma with or withoutthermal burns (flash burns or flame burns)will be common, especially inareas closer to the epicenter.
Anair burstnuclear detonationwill result in more burn victims than will aground burstdetonation of equal magnitude
Thermal burn patients will complicate the comprehensive medical response to radiological/nuclear mass casualty events, as burn care itself requires additional specialized staff, resources, and equipment for prolonged periods of time, well beyond the acute or initial phase of the medical response
Staff: Healthcare providers (both physicians and nurses) with significant burn care expertise are needed to optimize chances for survival and may be in short supply locally
Resources: Complex, expensive, resource-intensive care for the most severely burned patients will be required well beyond the acute/initial medical response phase
Equipment/Beds: Given the overall limited number of dedicated and available burn beds and burn specialists in any one region of the US, transfer of patients to specialized burn centers throughout the country will likely be needed. Consultation with anAmerican Burn Association-verified burn centeris recommended.
Thermal burns after concomitant radiation injury decrease the likelihood of survival, as do other types ofcombined injury.
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Diagnosis of Burns
Definition: A burn is the partial or complete destruction of skin caused by some form of energy, usually thermal energy.
Burn severity is dictated by:
Percent total body surface area (TBSA) involvement
Burns >20-25% TBSA require IV fluid resuscitation
Burns >30-40% TBSA may be fatal without treatment
In adults:"Rule of Nines" is used as a rough indicator of % TBSA
Rule of Nines for Establishing Extent of Body Surface BurnedAnatomic Surface
% of total body surface
Head and neck
9%
Anterior trunk
18%
Posterior trunk
18%
Arms, including hands
9% each
Legs, including feet
18% each
Genitalia
1%
In children,adjust percents because they have proportionally larger heads (up to 20%) and smaller legs (13% in infants) than adults
Lund-Browder diagrams improve the accuracy of the % TBSA for children.
Palmar hand surface is approximately 1% TBSA
Estimating Percent Total Body Surface Area in Children Affected by Burns
(A) Rule of "nines"(B) Lund-Browder diagram for estimating extent of burns(Adapted from The Treatment of Burns, edition 2, Artz CP and Moncrief JA, Philadelphia, WB Saunders Company, 1969) Depth of burn injury (deeper burns are more severe)
Superficial burns (first-degree and superficial second-degree burns)
First-degree burns
Damage above basal layer of epidermis
Dry, red, painful ("sunburn")
Second-degree burns
Damage into dermis
Skin adnexa (hair follicles, oil glands, etc,) remain
Heal by re-epithelialization from skin adnexa
The deeper the second-degree burn, the slower the healing (fewer adnexa for re-epithelialization)
Moist, red, blanching, blisters, extremely painful
Superficial burns heal by re-epithelialization and usually do not scar if healed within 2 weeks
Deep burns (deep second-degree to fourth-degree burns)
Deep second-degree burns (deep partial-thickness)
Damage to deeper dermis
Less moist, less blanching, less pain
Heal by scar deposition, contraction and limited re-epithelialization
Third-degree burns (full-thickness)
Entire thickness of skin destroyed (into fat)
Any color (white, black, red, brown), dry, less painful (dermal plexus of nerves destroyed)
Heal by contraction and scar deposition (no epithelium left in middle of wound)
Fourth-degree burns
Burn into muscle, tendon, bone
Need specialized care (grafts will not work)
Deep burns usually need skin grafts to optimize results and lead to hypertrophic (raised) scars if not grafted
Age
Mortality for any given burn size increases with age
Children/young adults can survive massive burns
Children require more fluid per TBSA burns
Elderly may die from small (35-40% TBSA should be endotracheally intubated
Burns to the head
Burns inside the mouth
Intubate early if massive burn or signs of obstruction
Intubate if patients require prolonged transport and any concern with potential for obstruction
If any concerns about the airway, it is safer to intubate earlier than when the patient is decompensating
Signs of airway obstruction
Hoarseness or change in voice
Use of accessory respiratory muscles
High anxiety
Tracheostomies not needed during resuscitation period
Remember: Intubation can lead to complications, so do not intubate if not needed
Breathing
Hypoxia
Fire consumes oxygen so people may suffer from hypoxia as a result of flame injuries
Carbon monoxide (CO)
Byproduct of incomplete combustion
Binds hemoglobin with 200 times the affinity of oxygen
Leads to inadequate oxygenation
Diagnosis of CO poisoning
Nondiagnostic
PaO2(partial pressure of O2dissolved in serum)
Oximeter (difference in oxy- and deoxyhemoglobin)
Patient color ("cherry red" with poisoning)
Diagnostic
Carboxyhemoglobin levels
40% is severe intoxication
Treatment
Remove source
100% oxygen until CO levels are