BURNS

Our hands reflexively assume a defensive posture to protect the rest our body when confronted with trauma. Consequently, hands bear the brunt of injuries in cases of burns.  Severe burns involve the hand in at least 90% of the cases. The collaborative efforts of hand surgeons, burn specialists and hand therapists are imperative for the most effective treatment of burns to the hands. Assessing burn severity is not always straightforward, and several methods can be used to determine wound depth. Treatments are specifically tailored to each patient based on not only wound depth, but also the cause and anatomical structures involved. When treating burn patients, the primary objectives are to salvage as much of the hand as possible, avert the potential of contractures, and maintain functionality by implementing the best techniques with passive and active range of motion therapy.³

Pathophysiology

• Wound depth determines the degree of pathology a burn will have on the skin. Superficial burns trigger a resilient response to blister and re-epithelialize with or without local wound care. With deeper burns, encompassing the epidermis and partial- and full-thickness dermal layers, the skin loses its capacity to regenerate and is severely compromised owing to the loss of underlying vital structures. Hypertrophic scarring and contracture are the body’s debilitated response to heal and seal off the wound bed.
• Hypertrophic scarring results from the overexpression of transforming growth factor B1 (TGF-B1) and connective tissue growth factor released by fibrocytes that infiltrate deep burns.²
• Fluid contained within blisters contains proinflammatory cytokines, an excellent medium for bacterial growth, and is therefore considered counterproductive to the healing process. However, blistered skin provides an autonomous protective barrier by covering the wound until healed.  Thus, removing burn blisters remains controversial.³
• The threat of contracture is limited to deep, partial- and full-thickness burns.  Desiccation of underlying tendons and/or muscles or rupture of the lateral bands will result in outward contraction of the hand, functional morbidity and disability, in addition to embarrassment relating to the disfigurement.⁴
• Because the subcutaneous layer of tissue overlying the dorsal aspect of the hand is relatively thin compared with that of the palmar aspect, extensor tendons are more susceptible to contractures than are the flexor tendons^.4

Related Anatomy

• Anatomical structures involved will vary depending on the severity of burn. The greater the wound depth, the greater risk of neurovascular, muscular, tendinous and bony structures being involved.

Incidence and Related Conditions

• Flame and scald burns account for 75% of those burn patients requiring hospitalization.⁴
• Flame burns occur most frequently at home (61%); 6% occur during recreational events, and 6% occur in the industrial/occupational setting.⁴
• 19% of burns reported involve children younger than age 5 years. Post-burn flexion contractures are most often seen in children after touching or immersing their hand in something hot, including a rotating object or machine.⁴
• 30% of burns involve the upper extremity.³

Differential Diagnosis

• Eczema
• Rheumatic skin disease
• Birth deformity
• Self-inflicted mutilation

Burn Severity

Symptoms vary based on burn severity, which is graded by degrees (Fufa et al., 2014).

• First-degree burns are confined to the epidermis
  • Superficial
  • Erythema
  • Pain
  • Devoid of blistering
• Second-degree burns
  • Partial-thickness burns, superficial
    • Blister formation followed by sloughing
    • Painful, owing to survival and exposure of nerve endings
    • Intact capillary wound bed with intact capillary refill (blanching).
    • Injury will usually re-epithelialize completely within 10-14 days with local wound care; hair, sebaceous glands, and sweat glands will be restored.^3,5
  • Partial-thickness burns, deep
    • Pain is absent because the wound depth extends beneath nerve endings
    • Few epithelial cells remain and take longer than 2–3 weeks to heal
    • Increased chance of hypertrophic scarring owing to collagen deposition.^3,5,6
    • Topical antimicrobial dressing affords the ability to determine wound depth and time needed to heal.⁵
    • May require skin grafting.⁵
• Third-degree burns
  • Full-thickness burns involve epidermis and dermis
  • Pallor is due to secondary thrombosis
  • Leathery, firm, desiccated or carbonized skin on exam^3,5
  • Insensate owing to destruction of cutaneous nerve endings
  • Full-thickness burns will not re-epithelize
• Fourth-degree burns
  • Full-thickness burn
  • Most severe, encompassing destruction of fat, tendon, muscle, vasculature, nerves, bone, and joints ^3,4
  • Heals by scar tissue formation^4,6
  • Compartment syndrome may occur concomitantly with fluid resuscitation in cases of deep-partial or full-thickness burns ³
  • Levels of contractures also are graded (Types I–III) based on degrees of extension and flexion, with the most severe form of contracture being the claw-hand deformity ⁴
  • Web contractures are not uncommon in severe cases involving dorsal-, palmar- , or inter-digital web spaces ⁴

A young child touches a stove, iron or runs across the deck, trips and falls into an uncovered fire pit.

• Wound borders become defined as the wound heals; circulation can become compromised, at which time, an escharotomy should be performed using a scalpel or electrocautery, while being mindful of underlying structures.
• Compartment syndrome may occur concomitantly with fluid resuscitation in cases of deep, partial- or full-thickness burns and may damage intrinsic musculature ^3,6). In this event, fasciotomy is indicated.
• Although split-thickness skin grafts are considered the gold standard, complications include hematoma and/or seroma formation. The success of skin grafts depends on adherence devoid of fluid accumulating beneath the graft. Monitoring for sub-graft fluid accumulation is essential. Fluid evacuation is achieved using a large bore needle or #11 scalpel blade ³.
• Burn wound sepsis is rare but is still a risk in diabetics and patients compromised by other medical comorbidities.
• Common bacteria in burn sepsis include pseudomonas and MRSA.

• Multi-interdisciplinary effort during the course of 1 year can be anticipated
• Debilitative deformity may be the end result for severely burned hands despite early rehabilitation and scar management ⁴
• Early surgical intervention has been shown to negate sepsis-related mortality, decrease chances of hypertrophic scarring, and improve hand function ³
• After surgery of severely burned hands, the best outcome is achieved by alternating compressive therapy with ROM therapy ⁴

• Early aggressive hand therapy is reserved for superficial burns; aggressive therapy of hands with deeper burns, particularly over the MCP joints, could damage the extensor slip resulting in a boutonmiere deformity (permanent flexion of the PIP joint with concomitant hyperextension of the distal interphalangeal joint of affected finger(s). Therefore, hand therapy in cases of deep, partial- and full-thickness burns should be counter-balanced with stage of healing ³
• General rule of thumb pertaining to orthosis fabrication: “For any burned body part, allowing the position of comfort allows for position of contracture” (Richards et al., 2014)
• Although blisters resulting from frostbite burns are very similar to those occurring with thermal burns, frostbite is progressive in nature leading to dermal ischemia and acute management is entirely different from treatment recommended for thermal burns ⁵
• Chemical burns: refer to acute management of chemical burns, dissimilar to that of thermal burns
• The division between secondary burns which are partial thickness (superficial)  and secondary burns that are partial thickness (deep) represents the dividing line between non-operative and operative burn wound care. Defining this distinction is difficult, requires clinical judgement and may vary from one burned area to another.

Cited

1. Robson MC, Heggers JP. Evaluation of hand frostbite blister fluid as a clue to pathogenesis. The J Hand Surg 1981;6(1):43-7. PMID 7204918
2. Stewart TL, Ball B, Schembri PJ, et al.  The use of laser Doppler imaging as a predictor of burn depth and hypertrophic scar postburn injury. J Burn Care Res 2012;33(6):764-71. PMID 22955162
3. Pan BS, Vu AT, Yakuboff KP. Management of the acutely burned hand. J Hand Surg Am 2015;40:1477-84. PMID 26043803
4. Futa DT, Chuang SS, Yang JY. Postburn contractures of the hand. J Hand Surg Am 2014;39:1869-76. PMID 25154575
5. Richards, WT, Vergara E, Dalaly DG, et al. Acute surgical management of hand burns. J Hand Surg Am 2014;39(10):2075-85. PMID 25257489
6. McKee DM. Acute management of burn injuries to the hand and upper extremity. J Hand Surg Am 2010;35:1542-44. PMID 20478666
7. Wu C, Zhou L, Zhu L, Zheng J. Deep digital burns treated with 2 abdominal flaps: case report. J Hand Surg Am 2013;38:2169-72. PMID 24021738
8. Germann G, Funk H, Bickert B. The fate of the dorsal metacarpal arterial system following thermal injury to the dorsal hand: a Doppler sonographic study. J Hand Surg Am 2000;25(5):962-68.         PMID 11040314

New Articles

1. Pan BS, Vu AT, Yakuboff KP. Management of the acutely burned hand. J Hand Surg Am 2015;40:1477-84. PMID 26043803
2. Wu C, Zhou L, Zhu L, Zheng J. Deep digital burns treated with 2 abdominal flaps: case report. J Hand Surg Am 2013;38:2169-72. PMID 24021738

Reviews

1. Richards, WT, Vergara E, Dalaly DG, et al. Acute surgical management of hand burns. J Hand Surg Am 2014;39(10):2075-85. PMID 25257489
2. Futa DT, Chuang SS, Yang JY. Postburn contractures of the hand. J Hand Surg Am 2014;39:1869-76. PMID 25154575

Classics

1. Germann G, Funk H, Bickert B. The fate of the dorsal metacarpal arterial system following thermal injury to the dorsal hand: a Doppler sonographic study. J Hand Surg Am 2000;25(5):962-68. PMID 11040314
2. McKee DM. Acute management of burn injuries to the hand and upper extremity. J Hand Surg Am 2010;35:1542-44. PMID 20478666