This article is about the injury. For other uses, see Burn (disambiguation).
Burn
Classification and external resources
File:Hand2ndburn.jpg
Second-degree burn of the hand
ICD-10 T20-T31
ICD-9 940-949
MeSH D002056

A burn is a type of injury to flesh caused by heat, electricity, chemicals, light, radiation or friction.[1][2][3] Most burns affect only the skin (epidermal tissue and dermis). Rarely, deeper tissues, such as muscle, bone, and blood vessels can also be injured. Burns may be treated with first aid, in an out-of-hospital setting, or may require more specialized treatment such as those available at specialized burn centers.

Managing burn injuries properly is important because they are common, painful and can result in disfiguring and disabling scarring, amputation of affected parts or death in severe cases. Complications such as shock, infection, multiple organ dysfunction syndrome, electrolyte imbalance and respiratory distress may occur. The treatment of burns may include the removal of dead tissue (debridement), applying dressings to the wound, fluid resuscitation, administering antibiotics, and skin grafting.

While large burns can be fatal, modern treatments developed in the last 60 years have significantly improved the prognosis of such burns, especially in children and young adults.[4][5] In the United States, approximately 1 out of every 25 people to suffer burns will die from their injuries. The majority of these fatalities occur either at the scene or on the way to hospital.[6]

Contents

Sign and symptoms [link]

Burns can be classified by mechanism of injury, depth, extent and associated injuries and comorbidities.

By depth [link]

Currently, burns are described according to the depth of injury to the dermis and are loosely classified into first, second, third, and fourth degrees. This system was devised by the French barber-surgeon Ambroise Pare and remains in use today.[7]

It is often difficult to accurately determine the depth of a burn. This is especially so in the case of second degree burns, which can continue to evolve over time. As such, a second-degree partial-thickness burn can progress to a third-degree burn over time even after initial treatment. Distinguishing between the superficial-thickness burn and the partial-thickness burn is important, as the former may heal spontaneously, whereas the latter often requires surgical excision and skin grafting.

The following tables describe degrees of burn injury under this system as well as provide pictorial examples.

Names Layers involved Appearance Texture Sensation Time to healing Complications Example
First degree Epidermis Redness (erythema) Dry Painful 1wk or less None A sunburn is a typical first degree burn.
Second degree (superficial partial thickness) Extends into superficial (papillary) dermis Red with clear blister. Blanches with pressure Moist Painful 2-3wks Local infection/cellulitis

Second degree burn of the thumb
Second degree (deep partial thickness) Extends into deep (reticular) dermis Red-and-white with bloody blisters. Less blanching. Moist Painful Weeks - may progress to third degree Scarring, contractures (may require excision and skin grafting) Second-degree burn caused by contact with boiling water
Third degree (full thickness) Extends through entire dermis Stiff and white/brown Dry, leathery Painless Requires excision Scarring, contractures, amputation Eight day old third-degree burn caused by motorcycle muffler.
Fourth degree Extends through skin, subcutaneous tissue and into underlying muscle and bone Black; charred with eschar Dry Painless Requires excision Amputation, significant functional impairment, possible gangrene, and in some cases death. 4th degree burn

Cause [link]

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

Chemical [link]

Main article: Chemical burn

Most chemicals that cause chemical burns are strong acids or bases.[8] Chemical burns can be caused by caustic chemical compounds such as sodium hydroxide or silver nitrate, and acids such as sulfuric acid.[9] Hydrofluoric acid can cause damage down to the bone and its burns are sometimes not immediately evident.[10] Chemical burns can be either first, second, or third degree burns, depending on duration of contact, strength of the substance, and other factors.

Electrical [link]

Main article: Electrical burn

Electrical burns are caused by either an electric shock or an uncontrolled short circuit (a burn from a hot, electrified heating element is not considered an electrical burn). Common occurrences of electrical burns include workplace injuries, taser wounds, or being defibrillated or cardioverted without a conductive gel. Lightning is also a rare cause of electrical burns.

Since normal physiology involves a vast number of applications of electrical forces, ranging from neuromuscular signaling to coordination of wound healing, biological systems are very vulnerable to application of supraphysiologic electric fields. Some electrocutions produce no external burns at all, as very little current is required to cause fibrillation of the heart muscle. Therefore, even when the injury does not involve any visible tissue damage, electrical shock survivors may experience significant internal injury.[11] The internal injuries sustained may be disproportionate to the size of the burns seen (if any), 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 or dislocations.[12]

The true incidence of electrical burn injury is unknown. In one study of 220 deaths due to electrical injury, 40% of those associated with low-voltage (<500 AC volts) injury demonstrated no skin burns or marks whatsoever. This is sufficient to cause cardiac arrest and ventricular fibrillation but generates relatively low heat energy deposit into skin, thus producing few or no burn marks at all.[13] High voltage electricity, on the other hand, is a common cause of third and fourth degree burns due to the extreme heat yielded by high temperature arcs and flashover associated with voltages over 1000v.

Radiation [link]

Main article: Radiation burn

Radiation burns are caused by protracted exposure to UV light (as from the sun), tanning booths, radiation therapy (in people undergoing cancer therapy), sunlamps, radioactive fallout, 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 or "heatstroke". Microwave burns are caused by the thermal effects of microwave radiation.

Scalding [link]

Scalding (from the Latin word calidus, meaning hot[14]) is caused by hot liquids (water or oil) or gases (steam), most commonly occurring from exposure to high temperature tap water in baths or showers or spilled hot drinks.[15] A so called immersion scald is created when an extremity is held under the surface of hot water, and is a common form of burn seen in child abuse.[16] A blister is a "bubble" in the skin filled with serous fluid as part of the body's reaction to the heat and the subsequent inflammatory reaction. The blister "roof" is dead and the blister fluid contains toxic inflammatory mediators. Scald burns are more common in children, especially "spill scalds" from hot drinks and bath water scalds.

Generally scald burns are first or second degree burns, but third degree burns can result, especially with prolonged contact.

Pathophysiology [link]

Burn injury results in a local inflamatory response. In larger burns there is a systemic inflamatory response. The lungs may be doubly compromised by smoke inhalation and the venous affluent returning from circulation through the burned skin. 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, cardiac output returns to normal if adequate fluid resuscitation has been given. Following this, cardiac output increases to meet the hypermetabolic needs of the body.

The effects of high temperature on tissue include speeding chemical reactions and unfolding (denaturing) proteins. [17]

Diagnosis [link]

Three degrees of burns

By severity [link]

In order to determine the need for referral to a specialised burn unit, the American Burn Association devised a classification system to aid in the decision-making process. Under this system, burns can be classified as major, moderate and minor. This is assessed based on a number of factors, including total body surface area (TBSA) burnt, the involvement of specific anatomical zones, age of the person and associated injuries.[6]

Major [link]

Major burns are defined as:

  • Age 10-50yrs: partial thickness burns >25% of total body surface area
  • Age <10 or >50: partial thickness burns >20% of total body surface area
  • Full thickness burns >10%
  • Burns involving the hands, face, feet or perineum[18]
  • Burns that cross major joints
  • Circumferential burns to any extremity
  • Any burn associated with inhalational injury
  • Electrical burns
  • Burns associated with fractures or other trauma
  • Burns in infants and the elderly
  • Burns in persons at high-risk of developing complications

These burns typically require referral to a specialised burn treatment center.

Moderate [link]

Moderate burns are defined as:

  • Age 10-50yrs: partial thickness burns involving 15-25% of total body surface area
  • Age <10 or >50: partial thickness burns involving 10-20% of total body surface area
  • Full thickness burns involving 2-10% of total body surface area

Persons suffering these burns often need to be hospitalised for burn care.

Minor [link]

Minor burns are:

  • Age 10-50yrs: partial thickness burns <15% of total body surface area
  • Age <10 or >50: partial thickness burns involving <10% of total body surface area
  • Full thickness burns <2% of total body surface area, without associated injuries

These burns usually do not require hospitalization.

By surface area [link]

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. First degree (erythema only, no blisters) burns are not included in this estimation. The rule of nines is used as a quick and useful way to estimate the affected TBSA. More accurate estimation can be made using Lund & Browder charts, which take into account the different proportions of body parts in adults and children.[19] The size of a person's hand print (palm and fingers) is approximately 0.8% of their TBSA, but for quick estimates, medical personnel round this to 1%, slightly overestimating the size of the affected area.[20]

Burns of 10% in children or 15% in adults (or greater) are potentially life threatening injuries (because of the risk of hypovolaemic shock) and should have formal fluid resuscitation and monitoring in a burns unit. Burns units will use surface area to predict severity and mortality, using a methodology such as the Baux score.


Management [link]

The resuscitation and stabilization phase begins with the reassessment of the injured person's airway, breathing and circulatory state. Appropriate interventions should be initiated to stabilize these. This may involve targeted (using specific resuscitation formula to guide fluid administration) fluid resuscitation and, if inhalation injury is suspected, intubation and ventilation. Once the injured person is stabilized, attention is turned to the care of the burn wound itself. Until then, it is advisable to cover the burn wound with a clean and dry sheet or dressing (such as cling film).

Early cooling reduces burn depth and pain, but care must be taken as uncontrolled cooling can result in hypothermia.[21]

Intravenous fluids [link]

Children with >10% total body surface area burns, and adults with >15% total body surface area burns need formal fluid resuscitation and monitoring (blood pressure, pulse rate, temperature and urine output).[22] Once the burning process has been stopped, the injured person should be volume resuscitated according to the Parkland formula. This formula calculates the amount of Ringer's lactate required to be administered over the first 24 hours post-burn.

Parkland formula: 4mL x (percentage of total body-surface-area sustaining non-superficial burns) x (person's weight in kgs).

Half of this total volume should be administered over the first eight hours, with the remainder given over the following 16 hours. It is important to note that this time frame is calculated from the time at which the burn is sustained, and not the time at which fluid resuscitation is begun. Children also require the addition of maintenance fluid volume. Such injuries can disturb a person's osmotic balance.[23] 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 may cause renal failure and death, but over-resuscitation also causes morbidity.

Wound care [link]

Second degree heat burn, approx 1cm across centre, 6 days after burn.

Debridement cleaning and then dressings are important aspects of wound care. The wound should then be regularly re-evaluated until it is healed.[3] In the management of first and second degree burns little quality evidence exists to determine which type of dressing should be used.[24] Silver sulfadiazine (Flamazine) is not recommended as it potentially prolongs healing time[24] while biosynthetic dressings may speed healing.[25]

Antibiotics [link]

Intravenous antibiotics may improve survival in those with large and severe burns. However due to the poor quality of the evidence, routine use is not currently recommended.[26]

Analgesics [link]

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.[27]

Surgery [link]

Wounds requiring surgical closure with skin grafts or flaps should be dealt with as early as possible.[3] Circumferential burns of digits, limbs or the chest may need urgent surgical release of the burnt skin (escharotomy) to prevent problems with distal circulation or ventilation.[3]

Alternative treatments [link]

Hyperbaric oxygenation may be useful in adjunct to traditional treatments to speed up healing time; however, more research is needed to confirm or deny this.[28] Honey has been used since ancient times to aid wound healing and may be beneficial in first and second degree burns, but may cause infection.[29]

There are a number of methods to reduce procedural pain and anxiety for people with burns include the use of virtual reality therapy, relaxation techniques, sensory focusing, distraction, and education.[30].

Complications [link]

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% TBSA
  • 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.

Prognosis [link]

The outcome of any injury or disease depends on three things: the nature of the injury, the nature of the injured or ill person and the treatment available. In terms of injury factors in burns, the prognosis depends primarily on total body surface area percentage burn and the age of the person. The presence of smoke inhalation injury, other significant injuries such as long bone fractures, and serious co-morbidities (heart disease, diabetes, psychiatric illness, suicidal intent etc.) will also adversely influence prognosis. Advances in resuscitation, surgical management, intensive care, control of infection, control of the hyper-metabolic response and rehabilitation have resulted in dramatic improvements in burn mortality and morbidity in the last 60 years. The modified Baux score determines the futility point for major burn injury. The Baux score is determined by adding the size of the burn (% TBSA) to the age of the patient. In most burn units a score of 140 or greater is a non-survivable injury, and comfort care should be offered. In children all burn injuries less than 100% TBSA should be considered a survivable injury.

Following a burn injury children can suffer significant psychological trauma in both the short- and long-term. A major concern of a survivor of any traumatic injury is post-traumatic stress disorder (PTSD). Another significant concern for children is coping with a disturbance in body image.[31]

Epidemiology [link]

Disability-adjusted life years for fires per 100,000 inhabitants in 2004.[32]
  no data
  < 50
  50-100
  100-150
  150-200
  200-250
  250-300
  300-350
  350-400
  400-450
  450-500
  500-600
  > 600

As of 2004, 11 million burn requiring medical care occurred worldwide.[33] About 90% of burns occur in the developing world and 70% of these are in children. Survival of injuries greater than 40% total body surface area is rare in the developing world.[34]

United States [link]

An estimated 500,000 burn injuries receive medical treatment yearly in the United States.[7] The 2009 National Burn Repository reports the most common cause of burns as direct fire/flame (43%) followed by scalds (30%). Scald injuries were the predominant cause in children under the age of 5. Burns sustained at home accounted for 65.5% of all burn injuries in the United States that year, and had a mortality rate of 4% overall. This mortality rate was directly associated with advancing age, burn size, the presence of inhalational injury and the female sex.[6] It is estimated that approximately 75% of deaths from burns and fires in the United States occur either at the scene of the incident or enroute to medical facilities. Demographically, people sustaining burns in the United States tended to be male (70%) and to have suffered their injuries in a residential setting (43%).[6] The highest incidence of burns occurs in the 18-35yr old age group, while the highest incidence of scalds occurs in children 1-5yrs old and adults over 65.

Other [link]

In India about 700,000 people a year are admitted to hospital, though very few are looked after in specialist burn units.[35]

References [link]

  1. ^ MedlinePlus. "Burns". https://www.nlm.nih.gov/medlineplus/burns.html. Retrieved 2010-09-22. 
  2. ^ WebMD (January 7, 2009). "Burns-Topic Overview". firstaid&emergencies. https://firstaid.webmd.com/tc/burns-topic-overview. Retrieved 2010-09-22. 
  3. ^ a b c d Total Burn Care, 3rd Edition, Edited by David Herndon, Saunders, 2007.
  4. ^ Total Burn Care 3rd Edition. Editied David Herndon. Chapter 1 [1] Accessed January 8, 2010
  5. ^ Sevitt S (May 1979). "A review of the complications of burns, their origin and importance for illness and death". J Trauma 19 (5): 358–69. DOI:10.1097/00005373-197905000-00010. PMID 448773. 
  6. ^ a b c d "American Burn Association". https://www.ameriburn.org/resources_factsheet.php. 
  7. ^ a b Ron Walls MD; John J. Ratey MD; Robert I. Simon MD (2009). Rosen's Emergency Medicine: Expert Consult Premium Edition - Enhanced Online Features and Print (Rosen's Emergency Medicine: Concepts & Clinical Practice (2v.)). St. Louis: Mosby. ISBN 0-323-05472-2. 
  8. ^ Chemical Burn Causes emedicine Health Accessed February 24, 2008
  9. ^ Chemical Burn Causes eMedicine Accessed February 24, 2008
  10. ^ Hydrofluoric Acid Burns emedicine Accessed February 24, 2008
  11. ^ Mechanism of Electrical Injury Chicago Electrical Trauma Research Institute Accessed April 27, 2010
  12. ^ Electrical Burns: First Aid Mayo Clinic Accessed February 24, 2008
  13. ^ Wright RK, Davis JH: The investigation of electrical deaths: A report of 220 fatalities. J Forensic Sci 25:514, 1980
  14. ^ Mosby’s Medical, Nursing and Allied Health Dictionary, Fourth Edition, Mosby-Year Book Inc., 1994, p. 1395
  15. ^ Scald and Burn Care, Public Education City of Rochester Hills Accessed February 24, 2008
  16. ^ Allasio D, Fischer H (May 2005). "Immersion scald burns and the ability of young children to climb into a bathtub". Pediatrics 115 (5): 1419–21. DOI:10.1542/peds.2004-1550. PMID 15867058. 
  17. ^ Ashley G. Smart: "Kinetic Experiments Shed Light on Protein-folding Thermodynamics", Physics Today August 2011
  18. ^ https://www.burnsurgery.com/Modules/BurnWound%201/sect_IV.htm SECTION IV: INITIAL WOUND MANAGEMENT
  19. ^ Ames WA (1999). "Management of the Major Burn". Update in Anaesthesia (Nuffield Department of Anaesthesia, Oxford, UK) (10). https://www.nda.ox.ac.uk/wfsa/html/u10/u1010_01.htm. Retrieved 2010-01-22. 
  20. ^ Perry RJ, Moore CA, Morgan BD, Plummer DL (May 1996). "Determining the approximate area of a burn: an inconsistency investigated and re-evaluated". BMJ 312 (7042): 1338. PMC 2350999. PMID 8646048. https://www.bmj.com/content/312/7042/1338.full. 
  21. ^ Tintinalli, Judith E. (2010). Emergency Medicine: A Comprehensive Study Guide (Emergency Medicine (Tintinalli)). New York: McGraw-Hill Companies. ISBN 0-07-148480-9. 
  22. ^ Herndon, David N. (2007). "Chapter 9 Total Burn Care". Total Burn Care. Philadelphia: Saunders. pp. 880. ISBN 1-4160-3274-6. 
  23. ^ Lee JA (December 1981). "Sydney Ringer (1834-1910) and Alexis Hartmann (1898-1964)" (PDF). Anaesthesia 36 (12): 1115–21. DOI:10.1111/j.1365-2044.1981.tb08698.x. PMID 7034584. https://www.dr-green.co.uk/PDFs/Ringer%20and%20Hartmann.pdf. 
  24. ^ a b Wasiak J, Cleland H, Campbell F (2008). Wasiak, Jason. ed. "Dressings for superficial and partial thickness burns". Cochrane Database Syst Rev (4): CD002106. DOI:10.1002/14651858.CD002106.pub3. PMID 18843629. 
  25. ^ 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. 
  26. ^ Avni T, Levcovich A, Ad-El DD, Leibovici L, Paul M (2010). "Prophylactic antibiotics for burns patients: systematic review and meta-analysis". BMJ 340: c241. DOI:10.1136/bmj.c241. PMC 2822136. PMID 20156911. //www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2822136. 
  27. ^ Minor Burns quickcare.org Accessed February 25, 2008
  28. ^ Villanueva E, Bennett MH, Wasiak J, Lehm JP (2004). Wasiak, Jason. ed. "Hyperbaric oxygen therapy for thermal burns". Cochrane Database Syst Rev (3): CD004727. DOI:10.1002/14651858.CD004727.pub2. PMID 15266540. 
  29. ^ 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. 
  30. ^ Blount, R.L., Zempsky, W.T., Jaaniste, T., Evans, S., Cohen, L.L., Devine, K.A., & Zeltzer, L.K. (2011). Management of pediatric pain and distress due to medical procedures. In Roberts, M.C. & Steele, R.G. (Eds.) Handbook of Pediatric Psychology (171-184). New York, NY: Guilford Press.
  31. ^ Tarnowski, K.J. & Brown, R.T. (2011). Pediatric burns. In Roberts, M.C. & Steele, R.G. (Eds.) Handbook of Pediatric Psychology (114-129). New York, NY: Guilford Press.
  32. ^ "WHO Disease and injury country estimates". World Health Organization. 2009. https://www.who.int/healthinfo/global_burden_disease/estimates_country/en/index.html. Retrieved Nov. 11, 2009. 
  33. ^ Peck, MD (2011 Nov). "Epidemiology of burns throughout the world. Part I: Distribution and risk factors.". Burns : journal of the International Society for Burn Injuries 37 (7): 1087-100. PMID 21802856. 
  34. ^ Potokar T, Chamania S, Ali S. International network for training, education and research in burns. Indian J Plast Surg 2007;40:107
  35. ^ Bhattacharya S. Principles and Practice of Burn Care. Indian J Plast Surg 2009;42:282-3

Further reading [link]

External links [link]

Wikimedia Commons has media related to: burns
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https://wn.com/Burn

Burn (Sister Machine Gun album)

Burn is the third studio album by industrial rock band Sister Machine Gun.

Track listing

Notes

Burn has two hidden tracks on the CD release. The first is a cover of The Doors, "Strange Days" which is found by rewinding the CD to -4:20 on a CD player (this may not work on software media players). The second is a reprise of the song "Inside" found at 8:43 on the final track.

Personnel

  • Chris Randall

    • References

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    Burn (Havok album)

    Burn is the first full-length album recorded by the thrash metal band, Havok. It was released in 2009 on Candlelight Records.

    Background

    Drum, bass and guitar recording started in mid-2008 in the basement of singer/guitarist David Sanchez's mother's house, in Lakewood, CO. It took roughly 6 months. Vocals were recorded later at Motaland Studios in Denver with engineer Bart McCrorey, who also mixed the album. The band did not work with a producer due to a limited budget of roughly $2,500.

    Halsey Swain provided the artwork after an earlier version of the same concept by another artist was rejected.

    The album consists of 5 tracks that had been previously released on various EPs or demos and 7 tracks that were original to the album. Bassist Justin Cantrell contributed "Morbid Symmetry" to the songwriting process, but left the band before recording began. This track was designated the "single" for the album, though no actual single was ever released. Jessie De Los Santos replaced him. Drummer Ryan Bloom left the band shortly before the album's release date and was not permanently replaced until 2010. His credit on the album reads, "drum tracks by Ryan Bloom," and he was the lyricist for "Ivory Tower."

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    USGS DEM

    The USGS DEM standard is a geospatial file format developed by the United States Geological Survey for storing a raster-based digital elevation model. It is an open standard, and is used throughout the world. It has been superseded by the USGS's own SDTS format but the format remains popular due to large numbers of legacy files, self-containment, relatively simple field structure and broad, mature software support.

    DEM Level

    A USGS DEM can be classified into one of four levels of quality. This is due to the multiple methods of data collection, and certainty in the data.

    Format Structure

    The USGS DEM format is a self-contained (single file) set of ASCII-encoded (text) 1024-byte (1024 ASCII chars) blocks that fall into three record categories called A, B, and C. There is no cross-platform ambiguity since line ending control codes are not used, and all data including numbers is represented in readable text form. There is no known binary analogue of the format, although it is common practice to compress the files with gzip.

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    Martin Luther King, Jr.

    Martin Luther King, Jr. (January 15, 1929 – April 4, 1968) was an American Baptist minister, activist, humanitarian, and leader in the African-American Civil Rights Movement. He is best known for his role in the advancement of civil rights using nonviolent civil disobedience based on his Christian beliefs.

    King became a civil rights activist early in his career. He led the 1955 Montgomery Bus Boycott and helped found the Southern Christian Leadership Conference (SCLC) in 1957, serving as its first president. With the SCLC, King led an unsuccessful 1962 struggle against segregation in Albany, Georgia (the Albany Movement), and helped organize the 1963 nonviolent protests in Birmingham, Alabama. King also helped to organize the 1963 March on Washington, where he delivered his famous "I Have a Dream" speech. There, he established his reputation as one of the greatest orators in American history.

    On October 14, 1964, King received the Nobel Peace Prize for combating racial inequality through nonviolence. In 1965, he helped to organize the Selma to Montgomery marches, and the following year he and SCLC took the movement north to Chicago to work on segregated housing. In the final years of his life, King expanded his focus to include poverty and speak against the Vietnam War, alienating many of his liberal allies with a 1967 speech titled "Beyond Vietnam".

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    Moloch

    Moloch, also known as Molech, Molekh, Molok, Molek, Moloc, Melech, Milcom, or Molcom (representing Semitic מלך ملك m-l-k, a Semitic root meaning "king") is the name of an ancient type of sacrifice or a god, who was first worshiped in Ammon. Moloch was either practised (as a sacrifice) or worshipped (as a god) by the Canaanites, Phoenicians, and related cultures in North Africa and the Levant.

    As a god worshiped by the Phoenicians and Canaanites, Moloch had associations with a particular kind of propitiatory child sacrifice by parents. Moloch figures in the Book of Deuteronomy and in the Book of Leviticus as a forbidden form of idolatry (Leviticus 18:21: "And thou shalt not let any of thy seeds (children) pass through the fire to Moloch"). In the Old Testament, Gehenna was a valley by Jerusalem, where followers of various Baalim and Canaanite gods, including Moloch, sacrificed their children by fire (2 Chr. 28:3, 33:6; Jer. 7:31, 19:2–6).

    Moloch has been used figuratively in English literature from John Milton's Paradise Lost (1667) to Allen Ginsberg's "Howl" (1955), to refer to a person or thing demanding or requiring a very costly sacrifice.

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    MAP3K11

    Mitogen-activated protein kinase kinase kinase 11 is an enzyme that in humans is encoded by the MAP3K11 gene.

    Function

    The protein encoded by this gene is called MLK3 and it is a member of the serine/threonine kinase family. This kinase contains a SH3 domain and a leucine zipper-basic motif. This kinase preferentially activates MAPK8/JNK kinase, and functions as a positive regulator of JNK signaling pathway. This kinase can directly phosphorylate, and activates JNK and p38, and is found to be involved in the transcription activity of AP1 mediated by Rho family GTPases and CDC42.

    Interactions

    MAP3K11 has been shown to interact with:

  • AKT1,
  • CDC42,
  • MAPK8IP1,
  • MAPK8IP2, and
  • SH3RF1.

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    This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/MAP3K11

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    Burn-up

    by: Siouxsie And The Banshees

    A crumpled future in your fist
    The killing streak ascends sun kissed
    And the firestarter from within
    Pokes out from fever blistered grin
    King Salamander that's his name
    A desert maker that's his aim
    The benign cremator, branding iron in his hand
    Eager and willing to torch the land
    All fire and brimstone
    This jack-o-lantern
    He likes to watch the buildings burn
    His ardour smoulders, phosphorous flies
    He radiates with urgence to hypnotise
    Stoke the furnace, feed his need
    This thirst for fire is all he seeks
    He's the blazing rubber making tracks
    The blue touch paper at your back
    All fire and brimstone
    This salamander king
    He basks while all around him burns
    `Giddy-up, burn-up, not fade away'
    These words ignite and pave his way
    `Giddy-up, burn-up, stoke it up and turn it up'
    He sings these words in fervid frame
    All fire and brimstone
    This jack-o-lantern
    He likes to watch the pyres burn
    Jack be nimble, Jack be quick
    Jack jump over the candlestick




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