Burn Information & Burn Links at HealthHaven.com

Burn
	Classification and external resources
	; Second-degree burn of the hand
ICD-10	T20.-T31.
ICD-9	940-949
MeSH	D002056

This article is about the injury. For other uses, see Burn (disambiguation).

A burn is a type of injury that may be caused by heat, electricity, chemicals, light, radiation, or friction.^[1]^[2] Burns can be highly variable in terms of the tissue affected, the severity, and resultant complications. Muscle, bone, blood vessel, dermal and epidermal tissue can all be damaged with subsequent pain due to profound injury to nerves. Depending on the location affected and the degree of severity, a burn victim may experience a wide number of potentially fatal complications including shock, infection, electrolyte imbalance and respiratory distress.^[3] Beyond physical complications, burns can also result in severe psychological and emotional distress due to scarring and deformity.

[edit] Classification

A number of different classification systems exist. The traditional system divided burns in first-, second-, or third-degree.^[4] This system is however being replaced by one reflecting the need for surgical intervention. The burn depths are described as either superficial, superficial partial-thickness, deep partial-thickness, or full-thickness.^[5]

The following are brief descriptions of these classes:

[edit] By degree

A sunburn is typically a first degree burn.

First-degree burns are usually limited to redness (erythema), a white plaque and minor pain at the site of injury. These burns involve only the epidermis. Most sunburns can be included as first-degree burns.

Second-degree burn caused by contact with boiling water

Second-degree burns manifest as erythema with superficial blistering of the skin, and can involve more or less pain depending on the level of nerve involvement. Second-degree burns involve the superficial (papillary) dermis and may also involve the deep (reticular) dermis layer.

Eight day old third-degree burn caused by motorcycle muffler.

Third-degree burns occur when the epidermis is lost with damage to the subcutaneous tissue. Burn victims will exhibit charring and extreme damage of the epidermis, and sometimes hard eschar will be present. Third-degree burns result in scarring and victims will also exhibit the loss of hair shafts and keratin. These burns may require grafting.
Fourth-degree burns damage muscle, tendon, and ligament tissue, thus result in charring and catastrophic damage of the hypodermis. In some instances the hypodermis tissue may be partially or completely burned away as well as this may result in a condition called compartment syndrome, which threatens both the life and the limb of the patient. Grafting is required if the burn does not prove to be fatal.

[edit] Other classifications

A newer classification of "Superficial Thickness", "Partial Thickness" (which is divided into superficial and deep categories) and "Full Thickness" relates more precisely to the epidermis, dermis and subcutaneous layers of skin and is used to guide treatment and predict outcome.

Table 1. A description of the traditional and current classifications of burns.

Nomenclature	Traditional nomenclature	Depth	Clinical findings
Superficial thickness	first degree	Epidermis involvement	Erythema, minor pain, lack of blisters
Partial thickness – superficial	second degree	Superficial (papillary) dermis	Blisters, clear fluid, and pain
Partial thickness – deep	third degree	Deep (reticular) dermis	Whiter appearance
Full thickness	fourth degree	Epidermis, Dermis, and partial damage to subcutaneous fat, eschar formation and minimal pain, requires grafts.
Subdermal	Fifth degree	Complete destruction of Epidermis, Dermis, Subcutaneous fat, and underlying tissue and possibly fascia, bone, or muscle	Hard, leather-like eschar, purple fluid, no sensation (insensate)

* It should however be noted that although fourth-degree is not a technical term, it is often used to describe burns that reach muscle and bone. Third-degree sufficiently describes all burns of this nature.

An even simpler, more accurate and more descriptive classification is epidermal, dermal and full thickness. Dermal injuries are subdivided into superficial, mid and deep.

Main article: Total body surface area

Burns can also be assessed in terms of total body surface area (TBSA), which is the percentage affected by partial thickness or full thickness burns (superficial thickness burns are not counted). The rule of nines is used as a quick and useful way to estimate the affected TBSA.

[edit] Causes

Burns are caused by a wide variety of substances and external sources such as exposure to chemicals, friction, electricity, radiation, and heat.

[edit] Chemical burn

Most chemicals that cause severe chemical burns are strong acids or bases.^[6] Chemical burns are usually caused by caustic chemical compounds, such as sodium hydroxide, silver nitrate, and more serious compounds (such as sulphuric acid and Nitric acid).^[7] Hydrofluoric acid can cause damage down to the bone and its burns are sometimes not immediately evident.^[8]

[edit] Electrical burn

Electrical burns are caused by an exogenous electric shock. Common causes of electrical burns include workplace injuries or being defibrillated or cardioverted without a conductive gel. Lightning is a rare cause of electrical burns. The internal injuries sustained may be disproportionate to the size of the burns seen, and the extent of the damage is not always obvious. Such injuries may lead to cardiac arrhythmias, cardiac arrest, and unexpected falls with resultant fractures.^[9]

[edit] Radiation burn

Radiation burns are caused by protracted exposure to UV light (as from the sun), tanning booths, radiation therapy (as patients who are undergoing cancer therapy), sunlamps, and X-rays. By far the most common burn associated with radiation is sun exposure, specifically two wavelengths of light UVA, and UVB, the latter being more dangerous. Tanning booths also emit these wavelengths and may cause similar damage to the skin such as irritation, redness, swelling, and inflammation. More severe cases of sun burn result in what is known as sun poisoning.

[edit] Scalding

Two-day-old scald caused by boiling radiator fluid.

Scalding is caused by hot liquids or gases, most commonly occurring from exposure to high temperature tap water.^[10] A blister is a "bubble" in the skin filled with serous fluid as part of the body's reaction to the heat and nerve damage. The blister "roof" is dead. Steam is a common gas that causes scalds. The injury is usually regional and usually does not cause death. More damage can be caused if hot liquids enter an orifice. However, deaths have occurred in more unusual circumstances, such as when people have accidentally broken a steam pipe. The demographics that are of the highest risk to suffering from scalding are young children, with their delicate skin, and the elderly over 65 years of age.

[edit] Management

If the patient was involved in a fire accident, then it must be assumed that he or she has sustained an inhalation injury until proven otherwise, and treatment should be managed accordingly. At this stage of management, it is also critical to assess the airway status. Any hint of burn injury to the lungs (e.g. through smoke inhalation) is considered a medical emergency.

Regardless of the cause, the first step in managing a person with a burn is to stop the burning process at the source, and cool the burn wound (but not the patient. It is essential to avoid the "lethal triad" of hypothermia, acidosis and coagulopathy). For instance, with dry powder burns, the powder should be brushed off first. With other burns the affected area should be rinsed thoroughly with a large amount of clean water. Cold water should not be applied to a person with extensive burns, however, as it may result in hypothermia.

To help ease the suffering of a burn victim, they may be placed in a special burn recovery bed which evenly distributes body weight and helps to prevent painful pressure points and bed sores. Survival and outcome of severe burn injuries is remarkably improved if the patient is treated in a specialized burn center/unit rather than a hospital.

[edit] Intravenous fluids

Once the burning process has been stopped, the patient should be volume resuscitated according to the Parkland formula (4ml lactated ringers x TBSA(total body surface area) % burned x pt. weight in kg.for first 24 hours), since such injuries can disturb a person's osmotic balance. This formula dictates the amount of Lactated Ringer's solution to deliver in the first twenty four hours after time of injury. This formula excludes first degree burns, so erythema alone is discounted. Half of the fluid should be given in the first eight hours post injury and the rest in the subsequent sixteen hours. Inhalation injuries in conjunction with thermal burns initially require up to 40–50% more fluid. The formula is a guide only and infusions must be tailored to the urine output and central venous pressure. Inadequate fluid resuscitation causes renal failure and death but over-resuscitation also causes morbidity and mortality. All resuscitation formulae should be delivered as a goal directed therapy to prevent the complications of hypovolaemic shock or over-hydration.

[edit] Dressings

In the management of first and second degree burns little quality evidence exist to determine which type of dressing should be used.^[11] In light of this silver sulfadiazine however is not recommended as it potentially increases healing time^[12] and biosynthetic dressings may speed healing.^[13]

[edit] Pain management

A number of different options are used for pain management. These include simple analgesics ( such as ibuprofen and acetaminophen ) and narcotics. A local anesthetic may help in managing pain of minor first-degree and second-degree burns.^[14]

[edit] Alternative treatments

Hyperbaric oxygenation has not been shown to be a useful adjunct to traditional treatments.^[15]

Honey has been used since ancient times to aid would healing and may be beneficial in first and second degree burns.^[16]

[edit] Prognosis

Following a major burn injury, heart rate and peripheral vascular resistance increase. This is due to the release of catecholamines from injured tissues, and the relative hypovolemia that occurs from fluid volume shifts. Initially cardiac output decreases. At approximately 24 hours after burn injuries (for patients receiving fluid resuscitation) cardiac output returns to normal, then increases to meet the hypermetabolic needs of the body.

Infection is a major complication of burns. Infection is linked to impaired resistance from disruption of the skin's mechanical integrity and generalized immune suppression. The skin barrier is replaced by eschar. This moist, protein rich avascular environment encourages microbial growth. Migration of immune cells is hampered, and there is a release of intermediaries that impede the immune response. Eschar also restricts distribution of systemically administered antibiotics because of its avascularity.

Risk factors of burn wound infection include:

Burn > 30% TBS
Full-thickness burn
Extremes in age (very young, very old)
Preexisting disease e.g. diabetes
Virulence and antibiotic resistance of colonizing organism
Failed skin graft
Improper initial burn wound care
Prolonged open burn wound

Burn wounds are prone to tetanus. A tetanus booster shot is required if individual has not been immunized within the last 5 years.

Circumferential burns of extremities may compromise circulation. Elevation of limb may help to prevent dependent edema. An Escharotomy may be required.

Acute Tubular Necrosis of the kidneys can be caused by myoglobin and hemoglobin released from damaged muscles and red blood cells. This is common in electrical burns or crush injuries where adequate fluid resuscitation has not been achieved.

[edit] Epidemiology

Disability-adjusted life year for fires per 100,000 inhabitants in 2004.^[17]

no data less than 50 50-100 100-150 150-200 200-250 250-300 300-350 350-400 400-450 450-500 500-600 more than 600

In 1991, burns led to 5,500 deaths in the United States.^[18]

[edit] Gallery

Second-degree burn caused by contact with glue at 145 °C

[edit] See also

List of burn centers in the United States

[edit] References

^ Burns MedlinePlus Accessed February 25, 2008
^ Burns Topic Overview WebMD Accessed February 27, 2008
^ A review of the complications of burns, their origin and importance for illness and death - Abstract J Trauma. 1979 May;19(5):358-69. Accessed February 27, 2008
^ Burn Degrees Lifespan.org Accessed February 24, 2008
^ Mertens DM, Jenkins ME, Warden GD (June 1997). "Outpatient burn management". Nurs. Clin. North Am. 32 (2): 343–64. PMID 9115481.
^ Chemical Burn Causes emedicine Health Accessed February 24, 2008
^ Chemical Burn Causes eMedicine Accessed February 24, 2008
^ Hydrofluoric Acid Burns emedicine Accessed February 24, 2008
^ Electrical Burns: First Aid Mayo Clinic Accessed February 24, 2008
^ Scald and Burn Care, Public Education City of Rochester Hills Accessed February 24, 2008
^ Wasiak J, Cleland H, Campbell F (2008). "Dressings for superficial and partial thickness burns". Cochrane Database Syst Rev (4): CD002106. doi:10.1002/14651858.CD002106.pub3. PMID 18843629.
^ Wasiak J, Cleland H, Campbell F (2008). "Dressings for superficial and partial thickness burns". Cochrane Database Syst Rev (4): CD002106. doi:10.1002/14651858.CD002106.pub3. PMID 18843629.
^ Hubley P (July 2009). "Review: evidence on dressings for superficial burns is of poor quality". Evid Based Nurs 12 (3): 78. doi:10.1136/ebn.12.3.78. PMID 19553415.
^ Minor Burns quickcare.org Accessed February 25, 2008
^ Villanueva E, Bennett MH, Wasiak J, Lehm JP (2004). "Hyperbaric oxygen therapy for thermal burns". Cochrane Database Syst Rev (3): CD004727. doi:10.1002/14651858.CD004727.pub2. PMID 15266540.
^ Jull AB, Rodgers A, Walker N (2008). "Honey as a topical treatment for wounds". Cochrane Database Syst Rev (4): CD005083. doi:10.1002/14651858.CD005083.pub2. PMID 18843679.
^ "WHO Disease and injury country estimates". World Health Organization. 2009. http://www.who.int/healthinfo/global_burden_disease/estimates_country/en/index.html. Retrieved Nov. 11, 2009.
^ Brigham PA, McLoughlin E (1996). "Burn incidence and medical care use in the United States: estimates, trends, and data sources". J Burn Care Rehabil 17 (2): 95–107. PMID 8675512.

[edit] External links

[0] Burns MedlinePlus Accessed February 25, 2008

[1] Burns Topic Overview WebMD Accessed February 27, 2008

[2] A review of the complications of burns, their origin and importance for illness and death - Abstract J Trauma. 1979 May;19(5):358-69. Accessed February 27, 2008

[3] Burn Degrees Lifespan.org Accessed February 24, 2008

[4] Mertens DM, Jenkins ME, Warden GD (June 1997). "Outpatient burn management". Nurs. Clin. North Am. 32 (2): 343–64. PMID 9115481.

[5] Chemical Burn Causes emedicine Health Accessed February 24, 2008

[6] Chemical Burn Causes eMedicine Accessed February 24, 2008

[7] Hydrofluoric Acid Burns emedicine Accessed February 24, 2008

[8] Electrical Burns: First Aid Mayo Clinic Accessed February 24, 2008

[9] Scald and Burn Care, Public Education City of Rochester Hills Accessed February 24, 2008

[10] Wasiak J, Cleland H, Campbell F (2008). "Dressings for superficial and partial thickness burns". Cochrane Database Syst Rev (4): CD002106. doi:10.1002/14651858.CD002106.pub3. PMID 18843629.

[11] Wasiak J, Cleland H, Campbell F (2008). "Dressings for superficial and partial thickness burns". Cochrane Database Syst Rev (4): CD002106. doi:10.1002/14651858.CD002106.pub3. PMID 18843629.

[12] Hubley P (July 2009). "Review: evidence on dressings for superficial burns is of poor quality". Evid Based Nurs 12 (3): 78. doi:10.1136/ebn.12.3.78. PMID 19553415.

[13] Minor Burns quickcare.org Accessed February 25, 2008

[14] Villanueva E, Bennett MH, Wasiak J, Lehm JP (2004). "Hyperbaric oxygen therapy for thermal burns". Cochrane Database Syst Rev (3): CD004727. doi:10.1002/14651858.CD004727.pub2. PMID 15266540.

[15] Jull AB, Rodgers A, Walker N (2008). "Honey as a topical treatment for wounds". Cochrane Database Syst Rev (4): CD005083. doi:10.1002/14651858.CD005083.pub2. PMID 18843679.

[16] "WHO Disease and injury country estimates". World Health Organization. 2009. http://www.who.int/healthinfo/global_burden_disease/estimates_country/en/index.html. Retrieved Nov. 11, 2009.

[17] Brigham PA, McLoughlin E (1996). "Burn incidence and medical care use in the United States: estimates, trends, and data sources". J Burn Care Rehabil 17 (2): 95–107. PMID 8675512.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

[17]

[18]

Contents