Escharotomy

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Continuing Education Activity

Burns commonly present acutely. They can be due to many modalities, including thermal, chemical, electrical, or radiation. Often, burns result in superficial (first degree) and partial thickness (second degree) burns, and less commonly full-thickness (third-degree) burns. Circumferential, full-thickness burns, whether on limbs or trunk can produce a splinting or tourniquet effect which compromises limb circulation and may reduce respiratory muscle movement, resulting in limited respiratory function. This is due to the inflexibility of the damaged tissue, which is caused by eschar formation. If untreated, this can result in distal ischemia, compartment syndrome, respiratory failure, tissue necrosis, or death. This activity describes the indications, contraindications, and techniques for performing an escharotomy and highlights the role of the interprofessional team in the management of burn patients.

Objectives:

  • Summarize the indications for an escharotomy.
  • Describe the technique used for escharotomy.
  • Identify the complications of escharotomy.
  • Explain how interprofessional team's coordination and communication in burn patients requiring an escharotomy can improve outcomes.

Introduction

Circumferential third-degree burn of the limbs results in a non-distensible and leathery eschar. During the first 48 hours of burn, massive fluid accumulates in the interstitial and intracellular spaces due to the fluid shift caused by an increase in capillary permeability along with the fluid resuscitation. The non-compliant nature of the circumferential eschar will eventually lead to an increase in compartment pressure and may progress to ischemia of the tissues within the compartment with subsequent tissue loss, infection, or contracture. The same concept can occur in the chest and abdomen areas whereby a large full-thickness burn can prevent adequate chest and abdominal expansion causing respiratory and hemodynamic compromise. Early surgical intervention by doing escharotomy can prevent these detrimental consequences and improve the outcome of the patient. An escharotomy is an emergency surgical procedure involving incising through areas of burnt skin to release the eschar and its constrictive effects, restore distal circulation, and allow adequate ventilation. Unlike fasciotomies, where incisions are made specifically to decompress tissue compartments, escharotomy incisions do not breach the deep fascial layer. Unfortunately, there is no objective measure to define the need for escharotomy and in most cases, an escharotomy is done on a prophylactic basis.[1] Recently, escharotomy has been classified as a part of a wider group of decompressive therapies including fasciotomy, nerve release, and decompressive laparotomy. [1] 

Anatomy and Physiology

The skin is made up of two layers, the epidermis, and dermis, and their thickness varies depending on location, age, and gender. Deep to the skin is the subcutaneous fat and then a fascial membranous layer before the deeper structures, such as muscle. Heat (and other injury mechanisms) can denature proteins, leading to loss of plasma membrane integrity and cell necrosis. Superficial burns only affect the epidermis; they are clinically painful, erythematous, blanch on pressure, and are sensate. Partial-thickness burns involve both the epidermis and dermis; clinically, they can appear pink or cherry red, blister, are sensate to touch, blanch on pressure, and are also painful. Full-thickness burns affect the epidermis, dermis, and subcutaneous tissue forming an eschar. Clinically, these burns appear dry and leathery, but they are not painful, sensate, or blanching and can feel firm and waxy on palpation.[2]

In limbs, circumferential full-thickness burns act as a tourniquet, and restrict circulation distally, resulting in tissue ischemia and necrosis. On the chest and abdominal wall, due to the inflexible nature of the eschar, normal respiratory chest and abdominal wall movements are restricted thus limiting normal respiratory function.[3][4]

Indications

Escharotomies often are performed as part of a burn victim's resuscitation care, and the decision is made based on clinical assessments of the patient and their response to treatment provided before that assessment. Generally, an escharotomy is performed when full circumferential thickness (and sometimes partial thickness) burns result in circulatory or respiratory compromise.  In the limbs, this can present with 6 “P”s: pain, pallor, paresthesia (either tingling or numbness), paresis, poikilothermia (usually the affected limb will feel colder than the unaffected one), and absent pulse (late sign). Moreover, decreased oxygen saturation (usually less than 95%), decreased or absent Doppler signals in the affected limb, and high compartment pressure (more than 30mmHg) can also be seen. [1][5][6] While the chest and abdominal full-thickness burn can interfere with full chest expansion leading to respiratory distress and circulatory compromise. The escharotomy is usually performed within the first 48 hours of injury, due to initial injury from the primary source, and secondarily due to resuscitation and development of tissue edema.[1] For limb burns, it is performed if simple elevation does not improve circulation; for chest wall burns, this is performed if there is compromised respiratory function, which can occur even in non-circumferential burns. Similarly, for abdominal wall burns, it is performed for compromised respiration due to the splinting effect on the diaphragm, especially in infants under 12 months due to their predominant abdominal breathing pattern. [7] 

Contraindications

There are relatively few contraindications, due to the potential for limb or life-threatening consequences if an escharotomy is not performed. It is not indicated in burns that will heal without surgical reconstruction (superficial burns) and when there is no compromise to respiration or circulation.

Equipment

  • Marking pen
  • Local anesthetic +/- sedation
  • Sterile preparation, such as chlorhexidine or non-alcoholic povidone-iodine
  • Sterile drapes
  • Scalpel +/- cutting diathermy
  • Diathermy cauterization device
  • Alginate dressing

This procedure does not require many instruments and can be performed at the bedside. A general anesthetic is not usually required, although sedation can be used. A local anesthetic is required to infiltrate unburnt skin, into which the escharotomy will extend. A scalpel or cutting diathermy can be used to make the incision, and a diathermy cauterization device should be used to control bleeding.[2][3][8][9]

Personnel

Ideally, an escharotomy should be performed by a plastic or burn surgeon or an experienced emergency medicine physician. Before performing an escharotomy, appropriate advice and discussion should have taken place with the relevant burn specialist.

Preparation

The patient should be in a supine position, with the upper limbs supinated and the lower limbs in the neutral position. Incision lines should be marked on the patient and the area prepared and covered to maintain sterility. Structures at risk should be marked, such as the ulnar nerve at the medial epicondyle of the humerus and common peroneal nerve at the neck of the fibula, so that extra care can be taken to avoid damage to deep structures.

Technique or Treatment

For the limb escharotomy, most of the literature suggests performing the incision along the longitudinal axis of the limb either in the mid-lateral or mid-medial line (e.g radial border and ulnar border for the upper limb). The incision can be done either by a scalpel or cutting cautery and hemostasis can be maintained by coagulation cautery. Ideally, the incision should extend between two unburnt skin areas and should be down to but not including the muscle fascia. Care should be taken not to injury any of the deep structures especially nerves and not to cross any of the flexural creases. Escharotomy should be done in a stepwise fashion by doing one incision either mid-lateral or mid-medial and then reassessing the limb condition. If there is no improvement, another opposing incision can be made. [1][10] Escharotomy should be done in proximal to distal order with frequent reassessment throughout the whole procedure and afterward. Once there is an adequate release of tissues, the incisions can be dressed with alginate dressings.[11] In upper limb escharotomy, the medial (ulnar) incision should be placed anterior to the medial epicondyle of the humerus to avoid injury of the ulnar nerve and this incision can be extended up to the base of the proximal phalanx of the little finger. While the lateral (radial incision) can progress to the base of the thumb. This can be followed by individual finger escharotomy if needed. When doing finger escharotomy, care should be taken to place the incision in the mid-axial line. While the thumb can be released in the radial border, other fingers should be released in the ulnar side as these are the least functional sites. Another two dorsal incisions may be done over the second and fourth metacarpal to release deep muscles of the hand if required. In lower limb escharotomy, the medial incision should be placed posterior to the medial malleolus to avoid injury of the great saphenous vein or saphenous nerve. While the mid-lateral incision should be curved around the fibular neck to avoid injury of the common peroneal nerve. In chest escharotomy, a breastplate incision is preferred whereby an incision is made along the anterior axillary line in both sides which is then connected by two transverse incisions in the upper chest and upper abdomen (below costal margin). Neck escharotomy is usually performed posteriorly and laterally to minimize the risk of damaging carotid arteries or jugular veins.[12][4][13]

Continuous evaluation and monitoring of the adequacy of escharotomy are crucial. Limb elevation, regular assessment of perfusion, and compartment pressure if possible are important as some patients may need a further extension of the escharotomy incisions or even fasciotomy. On the contrary, chest and abdominal escharotomy need adequate assessment of respiratory effort, circulatory status, and bladder pressure if needed. Some of these patients may develop intra-abdominal hypertension which may necessitate paracentesis or even decompressive laparotomy.[13]

Complications

As for any procedure, an escharotomy may cause complications related to the surgery or anesthesia. Following escharotomy, the wounds should be monitored regularly, especially in the first 72 hours to look for signs of incomplete releases, such as distal ischemia in limbs and poor ventilation for chest and abdominal burns. Other complications include bleeding which can be controlled by cauterization, infection, and damage to nearby structures, especially to the ulnar nerve, and the common peroneal nerve due to their relatively superficial course near the incisions. Furthermore, these wounds may require surgical reconstruction in the future, such as skin grafting, and may result in functional deficits as well as cosmetic problems (hypertrophic scar formation). [13]

Complications of inadequate or delayed escharotomy include muscle ischemia and necrosis, a neurovascular compromise that may lead to gangrene and amputation of the affected limb, respiratory compromise in case of chest full-thickness burn, and abdominal compartment syndrome in case of an abdominal burn. Moreover, systemic complications include myoglobinuria, renal compromise, metabolic acidosis, and hyperkalemia.[14][15]

Clinical Significance

Full-thickness burns affect the normal function of the skin: temperature regulation, perspiration, skin elasticity, sensory function, and infection barrier. Circumferential full-thickness burns with resultant loss of skin elasticity can produce a tourniquet effect on limbs and trunk, which can lead to compromised distal perfusion, airway obstruction, and poor respiratory effort. All of which could lead to limb- or life-threatening situations, which may be avoided through early and adequate burn resuscitation, including escharotomy, to release circumferential full-thickness burns.

Enhancing Healthcare Team Outcomes

For best results, an escharotomy should be performed with the help of an interprofessional team consisting of an experienced nurse and a plastic or burn surgeon, or an experienced emergency medicine physician. [Level 5]

Details

Author

Lihan Zhang

Author

Amir Labib

Editor:

Patrick G. Hughes

Updated:

8/14/2023 10:15:11 PM

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References

[1]

Orgill DP, Piccolo N. Escharotomy and decompressive therapies in burns. Journal of burn care & research : official publication of the American Burn Association. 2009 Sep-Oct:30(5):759-68. doi: 10.1097/BCR.0b013e3181b47cd3. Epub     [PubMed PMID: 19692906]

[2]

Grunwald TB, Garner WL. Acute burns. Plastic and reconstructive surgery. 2008 May:121(5):311e-319e. doi: 10.1097/PRS.0b013e318172ae1f. Epub     [PubMed PMID: 18453944]

[3]

White CE, Renz EM. Advances in surgical care: management of severe burn injury. Critical care medicine. 2008 Jul:36(7 Suppl):S318-24. doi: 10.1097/CCM.0b013e31817e2d64. Epub     [PubMed PMID: 18594259]

Level 3 (low-level) evidence

[4]

Pruitt BA Jr, Dowling JA, Moncrief JA. Escharotomy in early burn care. Archives of surgery (Chicago, Ill. : 1960). 1968 Apr:96(4):502-7     [PubMed PMID: 5694283]

[5]

Piccolo NS, Piccolo MS, Piccolo PD, Piccolo-Daher R, Piccolo ND, Piccolo MT. Escharotomies, fasciotomies and carpal tunnel release in burn patients--review of the literature and presentation of an algorithm for surgical decision making. Handchirurgie, Mikrochirurgie, plastische Chirurgie : Organ der Deutschsprachigen Arbeitsgemeinschaft fur Handchirurgie : Organ der Deutschsprachigen Arbeitsgemeinschaft fur Mikrochirurgie der Peripheren Nerven und Gefasse : Organ der V.... 2007 Jun:39(3):161-7     [PubMed PMID: 17602377]

[6]

Moylan JA Jr, Inge WW Jr, Pruitt BA Jr. Circulatory changes following circumferential extremity burns evaluated by the ultrasonic flowmeter: an analysis of 60 thermally injured limbs. The Journal of trauma. 1971 Sep:11(9):763-70     [PubMed PMID: 5094746]

[7]

Pegg SP. Escharotomy in burns. Annals of the Academy of Medicine, Singapore. 1992 Sep:21(5):682-4     [PubMed PMID: 1292401]

[8]

Wong L, Spence RJ. Escharotomy and fasciotomy of the burned upper extremity. Hand clinics. 2000 May:16(2):165-74, vii     [PubMed PMID: 10791164]

[9]

Toussaint J, Singer AJ. The evaluation and management of thermal injuries: 2014 update. Clinical and experimental emergency medicine. 2014 Sep:1(1):8-18     [PubMed PMID: 27752547]

[10]

Saffle JR, Zeluff GR, Warden GD. Intramuscular pressure in the burned arm: measurement and response to escharotomy. American journal of surgery. 1980 Dec:140(6):825-31     [PubMed PMID: 7457708]

[11]

ISBI Practice Guidelines Committee, Steering Subcommittee, Advisory Subcommittee. ISBI Practice Guidelines for Burn Care. Burns : journal of the International Society for Burn Injuries. 2016 Aug:42(5):953-1021. doi: 10.1016/j.burns.2016.05.013. Epub     [PubMed PMID: 27542292]

Level 1 (high-level) evidence

[12]

Burd A, Noronha FV, Ahmed K, Chan JY, Ayyappan T, Ying SY, Pang P. Decompression not escharotomy in acute burns. Burns : journal of the International Society for Burn Injuries. 2006 May:32(3):284-92     [PubMed PMID: 16527416]

[13]

de Barros MEPM, Coltro PS, Hetem CMC, Vilalva KH, Farina JA Jr. Revisiting Escharotomy in Patients With Burns in Extremities. Journal of burn care & research : official publication of the American Burn Association. 2017 Jul/Aug:38(4):e691-e698. doi: 10.1097/BCR.0000000000000476. Epub     [PubMed PMID: 27984410]

[14]

Brown RL, Greenhalgh DG, Kagan RJ, Warden GD. The adequacy of limb escharotomies-fasciotomies after referral to a major burn center. The Journal of trauma. 1994 Dec:37(6):916-20     [PubMed PMID: 7996604]

[15]

Oda J, Ueyama M, Yamashita K, Inoue T, Harunari N, Ode Y, Mega K, Aoki Y, Noborio M. Effects of escharotomy as abdominal decompression on cardiopulmonary function and visceral perfusion in abdominal compartment syndrome with burn patients. The Journal of trauma. 2005 Aug:59(2):369-74     [PubMed PMID: 16294077]