Predictors for limb amputation and reconstructive management in electrical injuries.

BACKGROUND: Electrical injuries follow a specific pathophysiology and may progressively damage both skin and deeper tissues, frequently ending in amputations. Type and timing of soft tissue reconstruction after electrical burns is crucial for proper outcome. The aim of this study was to assess surgical management and outcome of patients with electrical injuries treated at the Zurich Burn Center over the last 15 years, with emphasis on risk factors for amputation and reconstructive strategy. METHODS: Patient charts were reviewed retrospectively to identify cases admitted at the Zurich Burns Center (2005-2019). Patient characteristics and surgical management, with a special focus on amputations, reconstruction and outcome were analyzed and risk factors for amputation were assessed. RESULTS: Eighty-nine patients were identified and a total of 522 operations were performed. Escharotomy and fasciotomies were performed in 40.5% and 24.7% of cases, respectively, mainly at admission. The total amputation rate was 13.5% (23 amputations, 12 patients). Development of compartment syndrome, rhabdomyolysis, high myoglobin and CK blood levels, kidney failure, sepsis and respiratory complications during the course were related to higher risk of amputation (p < 0.001). Sixty-six flap-based reconstructions were performed (25% cases): 49 loco-regional flaps, 3 distant pedicled flaps, 14 free flaps. Two flaps were lost (flap failure rate 14%). Both flap losses occurred in cases of early reconstruction (within 5-21 days). CONCLUSIONS: Electrical injuries are still cause of elevated morbidity and mortality, with high amputation rate. Predictors for amputation can support physicians in the surgical care and decision-making. Reconstruction remains challenging in this type of injury: the surgical management with early decompression, serial necrectomies and delayed early reconstruction remains the procedure of choice at our unit.

Post-Operative Assessment of Ulnar Nerve Tension Using Shear-Wave Elastography.

BACKGROUND: Ulnar nerve compression at the elbow level is the second-most common entrapment neuropathy. The aim of this study was to use shear-wave elastography for the quantification of ulnar nerve elasticity in patients after ulnar nerve decompression with anterior transposition and in the contralateral non-operative side. METHOD: Eleven patients with confirmed diagnosis and ulnar nerve decompression with anterior transposition were included and examinations were performed on an AixplorerTM ultrasound system (Supersonic Imagine, Aix-en-Provence, France). RESULTS: We observed significant differences at 0-degree (p < 0.001), 45-degree (p < 0.05), 90-degree (p < 0.01) and 120-degree (p < 0.001) elbow flexion in the shear elastic modulus of the ulnar nerve in the operative and non-operative sides. There were no statistically significant differences between the elasticity values of the ulnar nerve after transposition at 0-degree elbow flexion and in the non-operative side at 120-degree elbow flexion (p = 0.39), or in the ulnar nerve after transposition at 120-degree elbow flexion and in the non-operative side at 0-degree elbow flexion (p = 0.09). CONCLUSION: Shear-wave elastography has the potential to be used postoperatively as a method for assessing nerve tension noninvasively by the estimation of mechanical properties, such as the shear elastic modulus.

Effect of a factor-based coagulation management on blood product use after major burn injury: A retrospective cohort study.

BACKGROUND: Transfusion of allogenic blood products was shown to be associated with more adverse events and a higher mortality in severely burned patients. This study investigated the impact of a goal-directed and factor-based coagulation algorithm on blood product use and clinical outcomes in severely burned patients. METHODS: This retrospective cohort study included adult patients admitted to the burn center of the University Hospital Zurich with major burn injuries compromising 20-80% of total body surface area. We compared two 3-year periods, one before the introduction of a goal-directed coagulation and transfusion algorithm (period 1: 2009-2011) and one after (period 2: 2016-2018). We applied linear and logistic regression models adjusted for confounders. RESULTS: We analyzed 36 patients (27.8% female) versus 42 patients (14.3% female) in period 1 and 2, respectively. Comorbidities and burn types were comparable between both collectives. Treatment according to the coagulation algorithm resulted in an overall reduction of 33 units of red blood cells (95% CI -52.8 to -12.9, p = 0.002), 9 units fresh frozen plasma (95% CI -14.7 to -2.6, p = 0.006) and 1.4g fibrinogen (95% CI -2.2 to -0.5, p = 0.001) per patient. We observed less infections (61.8% vs. 41.5%, p = 0.11) and a reduced mortality (38.9% vs. 26.8%, p = 0.33) during the algorithm treated period, although not significant. CONCLUSION: Treatment of severely burned patients with a goal-directed coagulation algorithm reduced blood product use and resulted in target-oriented administration of coagulation factors to improve outcomes.

Negative Pressure Wound Therapy in Pediatric Burn Patients: A Systematic Review.

Significance: Negative pressure wound therapy (NPWT) requires the placement of a dressing over a wound, covered with an adhesive film, and applying to these dressing a negative pressure in a controlled fashion. This therapy is a powerful complement to surgical care of wounds. Data are however poor on its use in pediatric burns. Recent Advances: This systematic review, including a total of 466 patients, shows that NPWT as the initial treatment for burned children and after skin grafting has been shown to produce promising results. In the majority of studies, skin graft take rate is close to 100%. This therapy is particularly beneficial in the pediatric population because of less frequent dressing changes and early mobilization. NPWT devices accurately quantify burns water losses and allow tailoring liquid resuscitation. Critical Issues: NPWT is not in the subject of controlled clinical trials in pediatric; most publications are case reports or retrospective reviews. The sporadic complications include bleeding, local infections, and mechanical device issues. Future Directions: NPWT has been used in 2-month up to 18-year-old children with deep second- to third-degree burn of multiple etiologies, from a few days up to several months, on small to 40% total body surface area (%), and in difficult areas. Data gathered provide empirical guidelines on NPWT use in pediatric burns using continuous mode with a pressure of -50 to -75 mmHg for children younger than 2 years, and -75 to -125 mmHg in children over 2 years of age. Prospective randomized studies are needed to provide validated rules.

Risk Factors for Mortality and Prolonged Hospitalization in Electric Burn Injuries.

Electrical injuries are rare, but very destructive with high morbidity and mortality, prolonged hospital length of stay and need for repeated procedures. The aim of study was to investigate characteristics and management of electrical injuries and predisposing factors for mortality and prolonged length of stay. Patient charts were reviewed retrospectively to identify patients admitted with electrical injuries at the Zurich Burns Center (2005-2019). Patient characteristics, management, and outcome were analyzed and risk factors for mortality and prolonged hospitalization were assessed. Eighty-nine patients were included, mostly males (86.5%), between 21 and 40 years (50.6%), with high-voltage (74.2%) occupational injuries (66.3%). Median intensive care unit and hospital stays were 6 (first and third IQR: 2.0; 30.0) and 18 (9.0; 48.0) days. Low-voltage patients had a median of 2 (1.5; 3.0) procedures, compared to 4 (2.0; 10.8) in high-voltage. The amputation rate was 13.5%, and a total of 46 flaps were required. Fifty-four patients had at least one serious complication. Mortality was 18% in high-voltage patients, mostly after multiple organ failure (35%). High total body surface area (TBSA), renal failure and cardiovascular complications were risk factors for mortality (P < .001) in multivariate regression models. Determinants for prolonged hospital stay were TBSA and sepsis (P < .01), and additionally abdominal complications and limb loss for intensive care unit stay (P < .05). Electrical injuries are still cause of significant morbidity and mortality, mostly involve young men in their earning period. Several risk factors for in-hospital mortality and prolonged stay were identified and can support physicians in the management and decision making in these patients.