Burns
Background
- Any burns involving the dermis, superficial partial-thickness, or deeper allow for significant transdermal fluid losses
- Burns >60% BSA often associated with cardiac output depression unresponsive to fluids
- Inhalation injury is main cause of mortality
- Half of patients admitted to burn centers develop ARDS
Jackson’s Burn Wound Model
Zone Name | Location | Tissue Damage | Change with Treatment |
---|---|---|---|
Coagulation | Inner | Dead | Not changed |
Stasis | Middle | Dynamic penumbra | Target of burn care: good first aid and wound management can significantly reduce the need for skin grafting (otherwise it can turn into zone of coagulation, if not properly treated) |
Hyperemia | Outer | Reactive inflammation | Will return to normal within hours of the injury regardless of care |
Explains the dynamic nature of burn injuries and how assessment of size and depth at the time of injury can be different compared to 48 hours later
Pre-Hospital Care
- Immerse wounds in cold water (1-5˚C)
- Only effective within first 30 mins
- No direct ice to wound
- Do not apply creams or ointments
- Remove all burned/burning clothing, jewelry
- Also remove rings or jewelry distal to injury due to anticipated swelling
- Assess for signs of inhalational injury
- Intravenous fluid (see below)
Clinical Features
Burn Thickness Chart[1]
Thickness | Deepest Skin Structure Involved | Pain & Sensation | Appearance | Expected Course | Image |
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Superficial (first-degree) |
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Superficial Partial (second-degree) |
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Deep Partial (second-degree) |
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Full (third-degree) |
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Fourth-degree |
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Differential Diagnosis
Burns
- Smoke inhalation injury (airway compromise)
- Chemical injury
- Acrolein
- Hydrochloric acid
- Tuolene diisocyanate
- Nitrogen dioxide
- Systemic chemical injury
- Specific types of burns
- Associated toxicities
Vesiculobullous rashes
Febrile
- Diffuse distribution
- Varicella (chickenpox)
- Smallpox
- Monkeypox
- Disseminated gonococcal disease
- DIC
- Purpural fulminans
- Localized distribution
Afebrile
- Diffuse distribution
- Bullous pemphigoid
- Drug-Induced bullous disorders
- Pemphigus vulgaris
- Phytophotodermatitis
- Erythema multiforme major
- Bullous impetigo
- Localized distribution
- Contact dermatitis
- Herpes zoster (shingles)
- Dyshidrotic eczema
- Burn
- Dermatitis herpetiformis
- Erythema multiforme minor
- Poison Oak, Ivy, Sumac dermatitis
- Bullosis diabeticorum
- Bullous impetigo
- Folliculitis
Evaluation
Workup
- Carboxyhemoglobin level
- Carbon monoxide and cyanide levels
- VBG, CBC, chem, total CK
- CXR
- ECG
- Urinalysis (assess for myoglobinuria)
- Coagulation studies (severe burn patients can suffer from coagulopathies such as DIC)
- Lactate (higher lactate levels suggest increase mortality rate and inadequate resuscitation)
- Serial assessments for compartment syndrome
Diagnosis
- Normally a clinical diagnosis
Management
- Consider empirically treating for cyanide toxicity especially if fire was in an enclosed place
Not Severe (Outpatient)
- Cleanse burn with mild soap and water or dilute antiseptic solution
- Debride wound as needed
- Consider a topical antimicrobial:
- Bacitracin, neomycin, or mupirocin
- AVOID Silver Sulfadiazine as it may interfere with partial thickness healing and offers no healing advantage (inhibits keratinocytes) [2][3]
- Consider use of synthetic occlusive dressings (see burn dressings)
- Blisters
- Leave blisters intact unless they cross a joint or if a large blisters precludes application of a dressing
- Aspiration is preferred to deroofing[4]
- Tetanus vaccine (if 2nd degree or higher)
Severe (Inpatient)
- IVF (see below)
- Analgesia
- Remove all rings, watches, jewelry, belts
- Local burn care (burn dressing)
- Contact burn center BEFORE applying any antiseptic dressings
- Small wound: moist saline-soaked dressing
- Large wound: sterile drape
- Antibiotics
- Administer in coordination with burn physician
- Prophylactic antibiotics have been abandoned - debridement is paramount to prevent infection
- Maintain glucose control to prevent infection[5]
- Core temperature is usually "reset" to 38-39°C, so fever in the absence of other symptoms of sepsis does not indicate infection[6]
- If septic, start broad spectrum antimicrobials - be sure to assess for need for antifungals in addition to antibiotics
- Nasogastric Tube
- Early GI prophylaxis (PPI/H2 blocker)
- evidence of stress ulceration even within hours after major burns[8]
- Tetanus vaccine
Fluid Resuscitation
General
- The Parkland formula (4mL*kg × % TBSA of burns, not including superficial burns) and modified Brooke formula (2ml/kg/%TBSA) are the two most widely used resuscitation formulas.[9]
- There is general agreement that there is an increasing tendency to over-resuscitate during burn shock.[10]
- Resuscitation recommendations are only a guide; must titrate to patient's urine output, clear sensorium, and HR less than 110
- Give least amount of fluid necessary to sustain organ perfusion (avoid "fluid creep")
- Patients with inhalation injury and/or multi-system trauma may require more fluid.
- Goal directed therapy with Swan-Ganz catheters, inotropes, and fluid support have shown no superiority to standard clinical parameters, and have increased over-resuscitation and incidence of abdominal compartment syndrome (see below)[11]
Indications based on Total Body Surface Area (TBSA) of Burn
- Definite IV: Adults > 20%, Peds > 15%
- Perhaps IV: Adults 15-20%, Peds 10-15%
- Oral adequate: Adults < 15%, Peds < 10%
Types of fluids
- Many burn centers prefer lactated ringers unless shock liver or hepatic failure suspected
- Colloids generally not used unless burns > 40% TBSA
- Do not use dextrose in adults (false UOP), but children should receive small amounts due to small glycogen stores
Fluid Quantity
- 2-4mL x weight (kg) x %TBSA (2nd and 3rd degree only) = mL NS (or LR) over 24hr
- Give 1/2 in first 8hr, remainder in next 16hr
Peds
- Give Parkland + maintenance fluid (2-4cc/kg x %BSA) if age < 5 yrs old
- Give 1/2 in first 8 hr, remainder in next 16 hr
- Can consider giving D5 1/2 NS if patient < 20 kg to prevent hypoglycemia
Goal UOP
- If UOP is greater than expected, consider glycosuria and reactive hyperglycemia as cause.
- Maintain urine output of 0.5-1 mL/kg/hr' urine in adults and 1-2 mL/kg/hr in children weighing < 30 kg[12]
- If myoglobinuria seen, double expected UOP until urine grossly clears (consider mannitol diuresis)
Intubation Guidelines
- Full-thickness burns of the face or perioral region
- Circumferential neck burns
- Acute respiratory distress
- Progressive hoarseness or air hunger
- Respiratory depression
- Altered mental status
- Supraglottic edema and inflammation on bronchoscopy
Escharotomy Burn Indications
- Circumferential eschar with one of the following:
- Circumferential torso - restricted ventilation
- Circumferential extremities - vascular compromise
- Immediate escharotomy if compartment pressure > 30 mmHg
- Elevate limb and optimize fluid status
Special Cases
- In burns > 40% in adults and > 30% in children < 5 yo, consider colloids which reduce abdominal compartment syndrome[13][14]
- Consider replacing 25% of IVF with FFP, so that total IV rate is unaltered through the 24 hrs post-burn
- In children, give 1/2 of total volume as FFP and 1/2 as LR throughout 24 hrs
- For infants < 2 yrs with > 30%, use 5% dextrose in LRs with the FFP
- Burns > 50% or SEVERE metabolic acidosis may require 44 mEq of bicarb to each 1 L of LR in first 24 hrs, maintain bicarb > 18
- Vitamin C to reduce fluid volume requirements and prevent capillary leak[15]
- Consider infusion of 66 mg/kg/hr for 24 hours of Vitamin C infusion for > 30% TBSA
- To be started within 6 hours of burn injury
Beyond 24 hrs
- 24-48 hrs - patients require ~1/2 total volume given in first 24 hrs; change LRs to D5,1/2NS; give FFP 2 units for every liter of crystalloid
- 48-72 hrs - no formula; take into account TBSA/depth of burns (open partial thickness loss > full thickness with thick eschar), re-mobilization of 3rd space fluid beginning at this time
Disposition
Outpatient Treatment
24-48hr follow-up
- Partial thickness <10% BSA, age 10–50y
- Partial thickness <5% BSA, age <10y or >50y
- Full thickness <2% in anyone
- No major burn characteristics present
Hospital admission
- Partial thickness 10-20% BSA 10-50 yrs old
- Partial thickness 5-10% BSA in <10 or > 50 yrs old
- Full thickness burns 2-5% BSA in anyone
- High voltage injury
- Circumferential burns of an extremity
- Burns complicated by suspected inhalation injury
- significant comorbidities
- No major burn characteristics present
Burn Center Transfer Criteria[16]
- Partial thickness >20% BSA (10-50 years old)
- Partial thickness >10% BSA (<10 or > 50 yrs old)
- Full thickness >5% BSA (any age)
- Burns involving face, eyes, ears, genitalia, joints, hands, feet
- Burns with inhalation injury
- High voltage electrical burn
- Chemical burns
- Burns complicated by fracture or other trauma (in which burn is main cause of morbidity)
- Burns in high-risk patients
See Also
- Caustic burns
- Electrical Injuries
- Lightning Injuries
- Burn dressings
- Estimating body surface area
- Carbon monoxide toxicity
- Cyanide toxicity
- Hydrogen fluoride toxicity
- Escharotomy
External Links
References
- ↑ Haines E, et al. Optimizing emergency management to reduce morbidity and mortality in pediatric burn patients. Pediatric Emergency Medicine Practice. 12(5):1-23. EB Medicine.
- ↑ Hussain S et al. Best evidence topic report: Silver sulphadiazine cream in burns. Emerg Med J. 2006 Dec;23(12):929-32.
- ↑ Atiyeh B et al. Effect of silver on burn wound infection control and healing: Review of the literature. Burns. 2007 Mar;33(2):139-48
- ↑ 29703044
- ↑ Jeschke MG. Clinical review: Glucose control in severely burned patients - current best practice. Crit Care. 2013; 17(4): 232.
- ↑ Weber J and McManus A. Infection Control in Burn Patients. http://www.worldburn.org/documents/infectioncontrol.pdf
- ↑ Herndon DN (Ed): Total Burn Care. Philadelphia, Elsevier Saunders, 2007
- ↑ DePriest JL. Stress ulcer prophylaxis. Do critically ill patients need it? Postgrad Med. 1995;98(4):159.
- ↑ American Burn Association Consensus Statements. 2013. DOI: 10.1097/BCR.0b013e31828cb249
- ↑ American Burn Association Consensus Statements. 2013. DOI: 10.1097/BCR.0b013e31828cb249
- ↑ Saffle JI. The phenomenon of "fluid creep" in acute burn resuscitation. J Burn Care Res. 2007 May-Jun;28(3):382-95.
- ↑ Singer AJ, Lee CC. Thermal burns. In: Walls RM, Hockberger RS, Gausche-Hill M, et al., eds. Rosen’s Emergency Medicine: Concepts and Clinical Practice. 9th ed. Philadelphia, PA: Elsevier Saunders; 2018:715–724.
- ↑ MetroHealth Burn ICU Handbook (Not a policy manual), Cleveland, OH
- ↑ Lawrence, A et Al. Colloid Administration Normalizes Resuscitatin Ratio and Ameliorates "Fluid Creep." Journal of Burn Care & Research: January/February 2010 - Volume 31 - Issue 1 - pp 40-47.
- ↑ Dubick MA, Williams C, et al. High-dose Vitamin C infusion reduces fluid requirements in the resuscitation of burn-injured sheep. Shock 2005; 24:139-144.
- ↑ American Burn Association