Complications Post Burns: Difference between revisions
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== Introduction == | == Introduction == | ||
Burn injuries are under-appreciated injuries that are associated with substantial morbidity and mortality. The injuries can be caused by friction, cold, heat, radiation, chemical or electric sources, but the majority of burn injuries are caused by heat from hot liquids, solids or fire. <ref>Jeschke MG, van Baar ME, Choudhry MA, Chung KK, Gibran NS, Logsetty S. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7224101/ Burn injury]. Nature Reviews Disease Primers. 2020 Feb 13;6(1):1-25.</ref> Burn injuries are a significant problem with more than 500,000 people seeking medical treatment, 40,000 resultant hospitalizations, and 4000 deaths per year in the United States. The annual cost of treating these burns is estimated to be in excess of U.S. $ 1 billion, not including the indirect costs of disability and rehabilitation.<ref>Nielson CB, Duethman NC, Howard JM, Moncure M, Wood JG. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5214064/ Burns: pathophysiology of systemic complications and current management.] Journal of Burn Care & Research. 2017 Jan 1;38(1):e469-81.</ref> | |||
== Medical Complications == | == Medical Complications == | ||
Revision as of 17:29, 10 March 2022
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Top Contributors - Naomi O'Reilly, Manisha Shrestha, Abdulazeez Arowolo, Jess Bell and Chelsea Mclene
Introduction[edit | edit source]
Burn injuries are under-appreciated injuries that are associated with substantial morbidity and mortality. The injuries can be caused by friction, cold, heat, radiation, chemical or electric sources, but the majority of burn injuries are caused by heat from hot liquids, solids or fire. [1] Burn injuries are a significant problem with more than 500,000 people seeking medical treatment, 40,000 resultant hospitalizations, and 4000 deaths per year in the United States. The annual cost of treating these burns is estimated to be in excess of U.S. $ 1 billion, not including the indirect costs of disability and rehabilitation.[2]
Medical Complications[edit | edit source]
Burn Shock[edit | edit source]
Burn shock is a medical emergency that occurs when the body's tissues and organs are deprived of adequate oxygenated blood, which includes decreased cardiac output, increased vascular resistance, hypovolaemia and hypoperfusion that occur after severe burn injuries have been sustained.[3]
Infection[edit | edit source]
Burn Wound Infection is a common cause of morbidity and mortality in burn patients, particularly within disaster and conflict settings. Sepsis, or multiple organ dysfunction syndrome are the leading causes of late morbidity and mortality in traumatic brain injury. The catecholamine surge that follows a systemic insult is directly involved in the regulation of cytokine expression in situations of acute stress producing a worsening clinical condition and, ultimately, a poor outcome. The trauma-induced catecholamine surge affects systemic organs and contributes to organ damage.
Multisystem Organ Dysfunction[edit | edit source]
Multisystem Organ Dysfunction, a progressive disorder that commonly occurs in acutely ill patients, exists in a continuum with the systemic inflammatory response syndrome that affects most patients with severe burns, with or without an infection with increased risk seen with burn wounds >20 percent total body surface area, increasing age, male gender, sepsis, hypoperfusion, and under-resuscitation.
Compartment Syndrome[edit | edit source]
Compartment Syndrome, common both following burns or crush injuries, is a condition in which there is increased pressure within a closed osteofascial compartment, resulting in impaired local circulation. Without prompt treatment, acute compartment syndrome can lead to ischemia and eventually, necrosis, often resulting in the need for amputation if not adequately managed.[4]
Orthopaedic Complications[edit | edit source]
Heterotophic Ossification[edit | edit source]
Heterotophic Ossification, also referred to as ectopic ossification and myositis ossificans, is the formation of pathological bone in muscle or soft tissue, which if severe can lead to ankylosis and impaired function. It usually presents around the joint, predominantly in the hip, with the first signs including swelling around the joint, reduced range of motion, with or without fever, spasticity and pain, which are similar clinical signs to those of fracture and deep venous thrombosis. Ultrasound, CT Scan or Bone Scan are used to provide a definitive diagnosis of heterotopic ossification, although blood tests may also give some indication.
Skin Complications[edit | edit source]
Hypertrophic Scarring, Keloid Formation and Contractures are unfortunately quite common following burn injury, and occur more frequently within low resource, disaster and conflict settings where access to ongoing treatment may be impacted.
Respiratory Complications[edit | edit source]
Respiratory Complications, particularly those related to inhalation injury, as a result of direct cellular damage, alterations in regional blood circulation and perfusion, obstruction of the airways, and the release of pro-inflammatory cytokine and toxin release,[5][6] which may cause reduced functionality of mucociliary clearance and weakening of alveolar macrophages,[7] which places the patient at a high risk of bacterial infection, especially pneumonia.[8][9]
Resources[edit | edit source]
Rehabilitation of Burns Casualties
References[edit | edit source]
- ↑ Jeschke MG, van Baar ME, Choudhry MA, Chung KK, Gibran NS, Logsetty S. Burn injury. Nature Reviews Disease Primers. 2020 Feb 13;6(1):1-25.
- ↑ Nielson CB, Duethman NC, Howard JM, Moncure M, Wood JG. Burns: pathophysiology of systemic complications and current management. Journal of Burn Care & Research. 2017 Jan 1;38(1):e469-81.
- ↑ Schaefer TJ, Nunez Lopez O. Burn Resuscitation And Management. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2020
- ↑ Torlincasi AM, Lopez RA, Waseem M. Acute compartment syndrome.2017 Available: https://www.ncbi.nlm.nih.gov/books/NBK448124/(accessed 28.10.2021)
- ↑ Kadri SS, Miller AC, Hohmann S, Bonne S, Nielsen C, Wells C, Gruver C, Quraishi SA, Sun J, Cai R, Morris PE. Risk factors for in-hospital mortality in smoke inhalation-associated acute lung injury: data from 68 United States hospitals. Chest. 2016 Dec 1;150(6):1260-8.
- ↑ Reper P, Heijmans W. High-frequency percussive ventilation and initial biomarker levels of lung injury in patients with minor burns after smoke inhalation injury. Burns. 2015; 41:65–70. [PubMed: 24986596]
- ↑ Al Ashry HS, Mansour G, Kalil AC, Walters RW, Vivekanandan R. Incidence of ventilator associated pneumonia in burn patients with inhalation injury treated with high frequency percussive ventilation versus volume control ventilation: A systematic review. Burns. 2016 Sep 1;42(6):1193-200.
- ↑ Mlcak RP, Suman OE, Herndon DN. Respiratory management of inhalation injury. burns. 2007 Feb 1;33(1):2-13.
- ↑ Pruitt BA, McManus AT. The changing epidemiology of infection in burn patients. World journal of surgery. 1992 Jan 1;16(1):57-67.
