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	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 References Caveat: This page describes the diagnosis and treatment of skin injury due to thermal effects. For skin injury due to radiation effects, see REMM's Cutaneous Radiation Syndrome page. top of page General Information After a radiation mass casualty incident, especially a nuclear detonation, trauma with or without thermal burns (flash burns or flame burns) will be common, especially in areas closer to the epicenter. An air burst nuclear detonation will result in more burn victims than will a ground burst detonation 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 an American Burn Association-verified burn center is recommended. Thermal burns after concomitant radiation injury decrease the likelihood of survival, as do other types of combined injury. top of page 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 Burned Anatomic 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 (<15% TBSA) burns Smoke inhalation injury Smoke inhalation injury doubles the mortality relative to burn size Associated injuries Other trauma increases severity of injury Delay in resuscitation Delay increases fluid requirements Need for escharotomies and fasciotomies Increases fluid requirements Use of alcohol or drugs (especially methamphetamine) Makes resuscitation more difficult top of page American Burn Association Burn Unit Referral Criteria* *Criteria not established for very large mass casualty incidents (MCI) Summary of Burn Unit Referral Criteria (PDF - 11 KB) (American Burn Association) Second- and third-degree burns greater than 10% TBSA in patients under 10 or over 50 years of age Second- and third-degree burns greater than 20% TBSA in other age groups Second- and third-degree burns that involve the face, hands, feet, genitalia, perineum, and major joints Third-degree burns greater than 5% TBSA in any age group Electrical burns, including lightning injury Chemical burns Inhalation injury Burn injury in patients with pre-existing medical disorders that could complicate management, prolong recovery, or affect mortality (e.g., significant radiation exposure) Any patients with burns and concomitant trauma (e.g., fractures, blast injury) where burn injury poses the greatest risk of morbidity or mortality. In such cases, if the trauma poses the greater immediate risk, the patient may be treated initially in a trauma center until stable before being transferred to a burn center. Physician judgment will be necessary in such situations and should be in concert with the regional medical control plan and triage protocols appropriate for the incident Hospitals without qualified personnel or equipment for the care of children should transfer children with burns to a Verified Burn Center with these capabilities Burn injury in children who will require special social/emotional and/or long-term rehabilitative support, including cases involving suspected child abuse or substance abuse top of page Treatment General information All burn patients should initially be treated with the principles of Advanced Burn and/or Trauma Life Support The ABC's (airway, breathing, circulation) of trauma take precedent over caring for the burn Search for other signs of trauma Verified Burn Centers provide advanced support for complex cases Certified by the American College of Surgeons (ACS) Committee on Trauma and the American Burn Association (ABA) Resources will give advice or assist with care Burn Unit Referral Criteria (PDF - 11 KB) (American Burn Association) Airway Extensive burns may lead to massive edema Obstruction may result from upper airway swelling Risk of upper airway obstruction increases with Massive burns All patients with deep burns >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 O2 dissolved in serum) Oximeter (difference in oxy- and deoxyhemoglobin) Patient color ("cherry red" with poisoning) Diagnostic Carboxyhemoglobin levels <10% is normal >40% is severe intoxication Treatment Remove source 100% oxygen until CO levels are <10% Smoke inhalation injury Pathophysiology Smoke particles settle in distal bronchioles Mucosal cells are die Sloughing and distal atelectasis Increase risk for pneumonia Diagnosis History of being in a smoke-filled enclosed space Bronchoscopy Soot beneath the glottis Airway edema, erythema, ulceration Nondiagnostic clinical tests Early chest x-ray Early blood gases Nondiagnostic clinical findings Soot in sputum or saliva Singed facial hair Treatment Supportive pulmonary management Aggressive respiratory therapy Circulation Obtain IV access anywhere possible Unburned areas preferred Burned areas acceptable Central access more reliable if proficient Cut-downs are last resort Resuscitation in burn shock (first 24 hours) Massive capillary leak occurs after major burns Fluids shift from intravascular space to interstitial space Fluid requirements increase with greater severity of burn (larger % TBSA, increase depth, inhalation injury, associate injuries - see above) Fluid requirements decrease with less severe burn (may be less than calculated rate) IV fluid rate dependent on physiologic response Place Foley catheter to monitor urine output Goal for adults: urine output of 0.5 ml/kg/hour Goal for children: urine output of 1 ml/kg/hour If urine output below these levels, increase fluid rate Preferred fluid: Lactated Ringer's Solution Isotonic Cheap Easily stored Resuscitation formulas are just a guide for initiating resuscitation Resuscitation formulas: Parkland formula most commonly used IV fluid - Lactated Ringer's Solution Fluid calculation 4 x weight in kg x %TBSA burn Give 1/2 of that volume in the first 8 hours Give other 1/2 in next 16 hours Warning: Despite the formula suggesting cutting the fluid rate in half at 8 hours, the fluid rate should be gradually reduced throughout the resuscitation to maintain the targeted urine output, i.e., do not follow the second part of the formula that says to reduce the rate at 8 hours, adjust the rate based on the urine output. Example of fluid calculation 100-kg man with 80% TBSA burn Parkland formula: 4 x 100 x 80 = 32,000 ml Give 1/2 in first 8 hours = 16,000 ml in first 8 hours Starting rate = 2,000 ml/hour Adjust fluid rate to maintain urine output of 50 ml/hr Albumin may be added toward end of 24 hours if not adequate response Resuscitation endpoint: maintenance rate When maintenance rate is reached (approximately 24 hours), change fluids to D50.5NS with 20 mEq KCl at maintenance level Maintenance fluid rate = basal requirements + evaporative losses Basal fluid rate Adult basal fluid rate = 1500 x body surface area (BSA) (for 24 hrs) Pediatric basal fluid rate (<20kg) = 2000 x BSA (for 24 hrs) May use 100 ml/kg for 1st 10 kg 0 ml/kg for 2nd 10 kg 20 ml/kg for remaining kg for 24 hrs Evaporative fluid loss Adult: (25 + % TBSA burn) x (BSA) = ml/hr Pediatric (<20kg): (35 + % TBSA burn) x (BSA) = ml/hr Complications of over-resuscitation Compartment syndromes Best dealt with at Verified Burn Centers If unable to obtain assistance, compartment syndromes may require management Limb compartments Symptoms of severe pain (worse with movement), numbness, cool extremity, tight feeling compartments Distal pulses may remain palpable despite ongoing compartment syndrome (pulse is lost when pressure > systolic pressure) Compartment pressure >30 mmHg may compromise muscle/nerves Measure compartment pressures with arterial line monitor (place needle into compartment) Escharotomies may save limbs Performed laterally and medially throughout entire limb Performed with arms supinated Hemostasis is required Fasciotomies may be needed if pressure does not drop to <30 mmHg Requires surgical expertise Hemostasis is required Chest Compartment Syndrome Increased peak inspiratory pressure (PIP) due to circumferential trunk burns Escharotomies through mid-axillary line, horizontally across chest/abdominal junction Abdominal Compartment Syndrome Pressure in peritoneal cavity > 30 mmHg Measure through Foley catheter Signs: increased PIP, decreased urine output despite massive fluids, hemodynamic instability, tight abdomen Treatment Abdominal escharotomy NG tube Possible placement of peritoneal catheter to drain fluid Laparotomy as last resort Acute Respiratory Distress Syndrome (ARDS) Increased risk and severity if over-resuscitation Treatment supportive Wound Care During initial or emergent care, wound care is of secondary importance Advanced Burn Life Support recommendations Cover wound with clean, dry sheet or dressing. NO WET DRESSINGS. Simple dressing if being transported to burn center (they will need to see the wound) Sterile dressings are preferred but not necessary Covering wounds improves pain Elevate burned extremities Maintain patient's temperature (keep patient warm) While cooling may make a small wound more comfortable, cooling any wound >5% TBSA will cool the patient If providing prolonged care Wash wounds with soap and water (sterility is not necessary) Maintain temperature Topical antimicrobials help prevent infection but do not eliminate bacteria Silver sulfadiazine for deep burns Bacitracin and nonsticky dressings for more superficial burns Skin grafting Deep burns require skin grafting Grafting may not be necessary for days Preferable to refer patients with need for grafting to Verified Burn Centers or, if not available, others trained in surgical techniques Grafting of extensive areas may require significant amounts of blood Patient's temperature must be watched Anesthesia requires extra attention Medications All pain meds should be given IV Tetanus prophylaxis should be given as appropriate Prophylactic antibiotics are contraindicated Systemic antibiotics are only given to treat infections top of page Special Burns General information Often require specialized care Calling a Verified Burn Center is advised Electrical injuries Extent of injury may not be apparent Damage occurs deep within tissues Damage frequently progresses Electricity contracts muscles, so watch for associated injuries Cardiac arrhythmias may occur If arrhythmia present, patient needs monitoring CPR may be lifesaving Myoglobinuria may be present Color best indicator of severity If urine is dark (black, red), myoglobinuria needs to be treated Increase fluids to induce urine output of 75-100 ml/hr in adults In children, target urine output of 2 ml/kg/hour Alkalinize urine (give NaHCOi3) Check for compartment syndromes Mannitol as last resort Compartment syndromes are common Long-term neuro-psychiatric problems may result Chemical Burns Brush off powder Prolonged irrigation required Do not seek antidote Delays treatment May result in heat production Special chemical burns require contacting a Verified Burn Center, for example: Hydrofluoric acid burn Radiation Burns Burn care is same as other burns in first 24 hours and first few weeks Wound breakdown may occur later in the course, consistent with time course of cutaneous subsyndrome of Acute Radiation Syndrome top of page American Burn Association Information The American Burn Association (ABA) is an organization of burn caregivers who have set up a network to assist with management of burn disasters. The ABA has set up a system to verify burn centers (similar to Verified Trauma Centers) as meeting standards for managing patients with burns of all types of severity. Verified Burn Centers participate in disaster planning and have set up a network for transporting burn patients throughout the country. Verified Burn Centers are always available for advice and assistance in managing burn patients. To find the nearest Verified Burn Center near you, contact the ABA Web site: www.ameriburn.org or e-mail: info@ameriburn.org or call: 312-642-9260 The ABA offers ABA Advanced Burn Life Support (ABLS), a Self-directed, Web-based Learning Program. Acknowledgement: This REMM Web page was prepared in consultation with Dr. David Greenhalgh, President of the American Burn Association, August 2006 top of page References Wolf SE. The year in burns 2008. Burns. 2009 Dec;35(8):1057-70. [PubMed Citation] Wolf SE. The year in burns 2007. Burns. 2008 Dec;34(8):1059-71. [PubMed Citation] Greenwood JE. Burn injury and explosions: an Australian perspective. Eplasty. 2009 Sep 16;9:e40. [PubMed Citation] Orgill DP. Excision and skin grafting of thermal burns. N Engl J Med. 2009 Feb 26;360(9):893-901. [PubMed Citation] Holmes JH 4th. Critical issues in burn care. J Burn Care Res. 2008 Nov-Dec;29(6 Suppl 2):S180-7. [PubMed Citation] Singer AJ, Dagum AB. Current management of acute cutaneous wounds. N Engl J Med. 2008 Sep 4;359(10):1037-46. [PubMed Citation] White CE, Renz EM. Advances in surgical care: management of severe burn injury. Crit Care Med. 2008 Jul;36(7 Suppl):S318-24. [PubMed Citation] Yurt RW, Lazar EJ, Leahy NE, Cagliuso NV Sr, Rabbitts AC, Akkapeddi V, Cooper A, Dajer A, Delaney J, Mineo FP, Silber SH, Soloff L, Magbitang K, Mozingo DW. Burn disaster response planning: an urban region's approach. J Burn Care Res. 2008 Jan-Feb;29(1):158-65. [PubMed Citation] Barillo DJ, Wolf S. Planning for burn disasters: lessons learned from one hundred years of history. J Burn Care Res. 2006 Sep-Oct;27(5):622-34. [PubMed Citation] Saffle JR, Gibran N, Jordan M. Defining the ratio of outcomes to resources for triage of burn patients in mass casualties. J Burn Care Rehabil, 2005 Nov-Dec;26(6):478-82 [PubMed Citation] Allison K, Porter K. Consensus on the pre-hospital approach to burns patient management. Injury. 2004 Aug;35(8):734-8. [PubMed Citation] Ahuja RB, Bhattacharya S. Burns in the developing world and burn disasters. BMJ. 2004 Aug 21;329(7463):447-9. [PubMed Citation] Sheridan RL. Burns. Crit Care Med. 2002 Nov;30(11 Suppl):S500-14. [PubMed Citation] Herndon DN, ed. Total Burn Care (2nd Ed), WB Saunders, London, 2002. Leslie CL, Cushman M, McDonald GS, Joshi W, Maynard AM. Management of multiple burn casualties in a high volume ED without a verified burn unit. Am J Emerg Med. 2001 Oct;19(6):469-73. [PubMed Citation] Kumar P, Jagetia GC. A review of triage and management of burns victims following a nuclear disaster. Burns. 1994 Oct;20(5):397-402. [PubMed Citation] Mackie DP, Koning HM. Fate of mass burn casualties: implications for disaster planning. Burns. 1990 Jun;16(3):203-6. [PubMed Citation] Randic L, Carley S, Mackway-Jones K, Dunn K. Planning for major burns incidents in the UK using an accelerated Delphi technique. Burns. 2002 Aug;28(5):405-12. [PubMed Citation] Carley S, Mackway-Jones K, Randic L, Dunn K. Planning for major burns incidents by implementing an accelerated Delphi technique. Burns. 2002 Aug;28(5):413-8. [PubMed Citation]

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