561 Bilateral Upper Extremity Amputation After High Voltage Electrical Injury: A Case Report

2021 ◽  
Vol 42 (Supplement_1) ◽  
pp. S130-S131
Author(s):  
Andrew Khalifa ◽  
Anzar Sarfraz ◽  
Jacob B Avraham ◽  
Ronnie Archie ◽  
Matthew Kaminsky ◽  
...  
Keyword(s):  
Case Report ◽  
High Voltage ◽  
Troponin I ◽  
Low Voltage ◽  
Foley Catheter ◽  
The United States ◽  
Upper Extremities ◽  
Full Thickness ◽  
Electrical Injuries

Abstract Introduction Electrical injuries represent 0.4–3.2% of admissions to burn units and are responsible for >500 deaths per year in the United States. Approximately half occur in the workplace and are the fourth leading cause of work-related-traumatic death. The extent of injury can be drastically underestimated by total body surface area percentage (TBSA). Along with cutaneous burns, high voltage electrical injuries can lead to necrosis of muscle, bone, nervous tissue, and blood vessels. Aggressive management allows for patient survival, but at significant cost. Newer technologic advances help improve functional outcomes. Methods This case-report was conducted via retrospective chart review of the case presented. Results A 43-year-old male sustained a HVEI (>10, 000 V) after contacting an active wire while working as a linesman for an electric company. He presented after less than 15-minute transport from an outside hospital with full thickness burns and auto-amputation to all fingers on both hands and the distal third of the left hand (Images 1 and 2). There were full thickness circumferential burns to the entire left and right upper extremities with contractures, with the burns extending into the axilla, and chest wall musculature. The patient had 4th degree burns and a large wound to the left shoulder with posterior extension to the scapula, flank and back with approximately 25% TBSA (Image 3). Compartments were tense in both upper extremities. Patient was sedated and intubated to protect the airway and placed on mechanical ventilation. A femoral central line was then placed, and the patient was given pain control, continued fluid resuscitation, and blood products. Dark red colored urine from a foley catheter that was immediately identified as rhabdomyolysis induced myoglobinuria. Labs drawn demonstrated elevated troponin I, CK >40,000. BUN 18, creatinine 1.0, K+ 5.2 and phosphate 5.6. Decision was made immediately for operative intervention with emergent amputation of both upper extremities in the light of rhabdomyolysis secondary to tissue necrosis and oliguria. During the patient’s hospital course, he underwent multiple operations for further debridement with vacuum-assisted closure therapy and skin grafting of sites, as well as targeted muscle reinnervation (TMR) 6 months later at an outside hospital. Conclusions Although HVEI only account for a small percentage of burn admissions, they are associated with greater morbidity than low-voltage injuries. Patients with HVEI often incur multiple injuries, more surgical procedures, have higher rates of complications, and more long term psychological and rehabilitative difficulties. Despite the need for amputation in some of these critically ill patients, options exist that allow for them to obtain long term functional success.

857 Reconstruction of the Pediatric Upper Extremity Following High Voltage Electrical Burn Injury

2020 ◽  
Vol 41 (Supplement_1) ◽  
pp. S266-S267
Author(s):  
Matthew A Depamphilis ◽  
Ryan Cauley ◽  
Farzin Sadeq ◽  
Robert Sheridan ◽  
Daniel N Driscoll
Keyword(s):  
Upper Extremity ◽  
High Voltage ◽  
Pediatric Patients ◽  
Burn Injury ◽  
Multidisciplinary Treatment ◽  
Small Surface ◽  
Term Function ◽  
Electrical Burns ◽  
Electrical Injuries

Abstract Introduction High voltage electrical burns are often associated with significant morbidity, posing great acute and delayed reconstructive challenges for plastic surgeons. As survival from these injuries increases, attention has been focused on improving quality of life post burn injury through restoration of sensory and motor function. However, due to the complexity of the upper extremity and its small surface area in pediatric patients, its reconstruction can be a very complex endeavor. Especially in pediatric patients that are still growing, ensuing great risk for upper extremity contracture and deformity. Methods A retrospective chart review was conducted on patients aged 0–18 years admitted to our institution with a high voltage electrical burn involving the upper extremity. The timeframe under study was 13 years from January 1st 2005 to December 1st 2018. This project was undertaken at our institution as an exempt project under 45 CFR 46.101 and, as such, it was not formally supervised by an Institutional Review Board. Results Out of the 68 electrical burns treated at our pediatric burn center, 58 involved the upper extremity. This further divides into 37 patients with high voltage and 31 patients with low voltage upper extremity electric burns. Of the 37 high voltage upper extremity patients, 35 underwent acute surgical management and 18 had delayed surgical reconstruction for the upper extremity. Conclusions The reconstructive techniques employed at our institution following severe electrical injuries typically follow a reconstructive ladder. The majority of chronic contractures in our series were successfully treated with either minimally invasive techniques such as laser and steroid infiltration, local tissue flaps, or release and skin grafting. Applicability of Research to Practice Multidisciplinary treatment of severe electrical injuries to the upper extremity is vital to optimizing a patient’s long-term function. Given the significant depth of injury in cases of electrical burns to the upper extremity the risk of developing contractures is relatively high. The expeditious treatment of secondary contractures is important to maximize a patient’s long-term function. The general treatment of contractures of the upper extremity should be based on the location and severity of the contracture, with considerations made for the patient’s reconstructive goals.

Hypokalaemia with flaccid paralysis following high-voltage electrical injury in an adolescent patient

Trauma ◽  
2019 ◽  
Vol 21 (4) ◽  
pp. 317-320
Author(s):  
R Bird ◽  
S Naji ◽  
B Vowles ◽  
A Shaw ◽  
NA Martin
Keyword(s):  
Case Report ◽  
High Voltage ◽  
Clinical Picture ◽  
Flaccid Paralysis ◽  
Electrical Injury ◽  
Adolescent Patient ◽  
Potassium Homeostasis ◽  
Electrical Arc ◽  
Electrical Injuries

The authors present a case report of a previously healthy 15-year-old male who experienced global weakness in the presence of profound hypokalaemia following a high-voltage electrical arc injury. The clinical picture is discussed in the context of our evolving understanding of electrical injuries and potassium homeostasis.

Electrocution injuries. A case report

1991 ◽  
Vol 81 (1) ◽  
pp. 39-41 ◽  
Author(s):  
JB Addante ◽  
M Chin ◽  
J Eto ◽  
RE Baker
Keyword(s):  
Case Report ◽  
High Voltage ◽  
Ischemic Necrosis ◽  
Exit Wound ◽  
Short Period ◽  
Electrical Source

A case study of a high-voltage injury was presented. The short period that the patient was in contact with the electrical source prevented further systemic injury and may have saved her life. The patient's present neuritis is indicative of long-term sequelae of electrocution injury, in which ischemic necrosis of the surrounding nerves can occur near or at the site of the exit wound.

scholarly journals Early initiation of high-volume hemofiltration may reduce complications of high-voltage electrical injuries: A case report

Burns Open ◽  
2020 ◽  
Vol 4 (3) ◽  
pp. 132-136
Author(s):  
Christopher T. Buckley ◽  
Sai R. Velamuri ◽  
Ibrahim Sultan-Ali ◽  
Faisal Arif ◽  
William L. Hickerson ◽  
...  
Keyword(s):  
Case Report ◽  
High Voltage ◽  
High Volume ◽  
Early Initiation ◽  
High Volume Hemofiltration ◽  
Electrical Injuries

Electrical Injuries in Children: A 10-Year Experience at a Tertiary Pediatric Burn Center

2021 ◽  
Author(s):  
Sabri Demir ◽  
Tugba Ornek Demir ◽  
Ahmet Erturk ◽  
Can İhsan Oztorun ◽  
Dogus Guney ◽  
...  
Keyword(s):  
Length Of Stay ◽  
Surface Area ◽  
Surgical Procedures ◽  
High Voltage ◽  
Low Voltage ◽  
Average Length ◽  
Burn Center ◽  
Average Length Of Stay ◽  
The Right ◽  
Electrical Injuries

Abstract Electrical injuries comprise 4% of cases but have higher morbidity and mortality. This study aims to share our experiences with pediatric electrical injuries and propose strategies to prevent them. The files of pediatric electrical injuries between 2010 and 2020 were reviewed retrospectively. The following were investigated: age, gender, cause, length of stay in the pediatric burn center, total burned surface area, voltage-type, and surgical procedures performed. The patients from low- and high-voltage groups were compared. Eighty-five patients were treated in the last 10 years. Seventy were males, the mean age was 9.9 years, the average length of stay in pediatric burn center was 18.2 days, and the average total burned surface area was 11.7%. Forty-three patients were injured with high-voltage and 42 with low-voltage electricity. Fasciotomy was performed in 25 patients, grafting in 40 patients, and amputation in 12 patients. The most often amputated limb was the right arm/forearm. Psychiatric disorders developed in 24 patients. One patient died. In conclusion, the incidence of high-voltage electrical injuries increases with age. They are more prevalent in males, more often accompanied by additional trauma, and have higher total burned surface area, surgical procedures are performed more often, and hospitalization times are longer. For prevention, precautions should be taken by governments and families, and education is critical.

Patterns and outcomes of high-voltage versus low-voltage pediatric electrical injuries: an 8-year retrospective analysis of a tertiary-level burn center

2021 ◽  
Author(s):  
Kayhan Gurbuz ◽  
Mete Demir
Keyword(s):  
High Voltage ◽  
Parental Education ◽  
Burn Injury ◽  
Low Voltage ◽  
Total Body Surface Area ◽  
Power Lines ◽  
Age Group ◽  
Voltage Versus ◽  
Burn Center ◽  
Electrical Injuries

Abstract Introduction Although electrical injuries (EIs) are rare traumas in the pediatric age group, they are considered one of the most devastating injuries. We aimed to evaluate the patterns and outcomes of pediatric high-voltage (HVI) vs. low-voltage injuries (LVIs), admitted to the burn center within the efforts of determining evidence-based data for contributing to burn prevention strategies. Methods A retrospective study was conducted on children with EIs hospitalized in the Burn Center of Adana City Training and Research Hospital (ACTRH) for eight years (2013-2020). Data including the patients’ clinical and demographic characteristics, the percentage of total body surface area with burns (TBSA%), length of hospital stay (LOS), exposure place, electrical current type, and treatment results were collected and analyzed. Results EIs were detected in 57 (2.5%) of 2243 acute pediatric burn injury admissions. EIs were most frequently observed in the form of HVIs, among children within the age range of 13-18 years, mostly in residential outdoor environments, where the high-power lines still passing close to the home roofs and balconies, resulting from contact with them. Besides, with a lesser extent in LVIs, in the home environment among children under five years, which was caused by connection with substandard electrical cords/poor-quality electrical devices and inserting an object into the electric sockets. Concerning the mean of TBSA%, HVIs suffered more extensive burns than LVIs. The most frequently affected anatomical regions among HV and LVIs were the upper limb, followed by the lower limb. While superficial partial- and deep partial-thickness burns were significantly more common among the LVIs, full thickness burns were more prevalent among the HVIs. The amputation rate was 12% which only one of them was major amputation (forearm above the elbow joint). HVIs had more elevated CK and CK-MB levels than LVIs but were not correlated with ECG findings. Only one death (caused by HVI) was observed, with a mortality rate of 1.8%. Conclusion Pediatric EIs are less common than scald or fire-flame related burns in this age group but can cause significant morbidity and even mortality, especially in severe burns. It is possible to prevent possible morbidity and mortality by strengthening compliance with safety precautions, especially with parental education and raising social awareness. In this context, taking necessary precautions for passing high voltage power lines under the ground, the standardization of electrical cables by the relevant legal regulations, the use of socket covers in homes, promoting the widespread use of residual current relays and arrangements to be taken against the use of illegal electricity are among measures for the prevention strategy.

Electrical injury and burns and their management

2021 ◽  
pp. 193-204
Author(s):  
David C.G. Sainsbury ◽  
Joel Fish
Keyword(s):  
High Voltage ◽  
Low Voltage ◽  
Electrical Current ◽  
Systemic Effects ◽  
Electrical Injury ◽  
Current Passing ◽  
Partial Thickness ◽  
Complex Reconstruction ◽  
Electrical Injuries

Though responsible for just 4% of burn centre admissions, electrical injuries present in a myriad of ways. From small, innocuous, partial-thickness injuries on the fingertip, to a high-voltage injury requiring amputation and complex reconstruction, the burn surgeon must be equipped with the knowledge and skill to deal with such varying injuries. This chapter describes the epidemiology of electrical injury and the pathophysiology of electrical current passing through the patient. The management of high- and low-voltage wounds is described, as is the treatment of the systemic effects of the electrical injury.

scholarly journals Patient outcomes after electrical injury – a retrospective study

2021 ◽  
Vol 29 (1) ◽  
Author(s):  
Jamal Ahmed ◽  
Charlotte Stenkula ◽  
Sherwan Omar ◽  
Josef Ghanima ◽  
Fredrik Førsund Bremtun ◽  
...  
Keyword(s):  
Retrospective Study ◽  
High Voltage ◽  
Low Voltage ◽  
Observation Time ◽  
Current Evidence ◽  
Cardiac Complications ◽  
Loss Of Consciousness ◽  
Work Related ◽  
Ecg Abnormalities ◽  
Electrical Injuries

Abstract Introduction People exposed to electrical injuries are often admitted to hospital for observation. Current evidence suggests that patients who have a normal ECG on admission after a low-voltage injury, with no loss of consciousness or initial cardiac arrest may be discharged home after a short observation time. Currently, there are no established standards for the duration of monitoring after electric shock, but 24 h of observation is the most commonly adopted approach. We carried out a retrospective study of patients admitted after electrical injuries to determine the in-hospital outcomes and 30-day mortality in these patients. Methods We performed a chart review of all patients with electrical injuries admitted to Østfold Hospital, Norway between the years 2001 and 2019, to determine in-hospital and 30-day mortality and the frequency of various cardiac and non-cardiac complications. Results Mean age of 465 included patients (88% males) was 31 years. Of all injuries, 329 (71%) were work-related, 17 (3.7%) involved loss of consciousness. Furthermore, 29/437 (6.6%) were high voltage (> 1000 V), and 243/401 (60.6%) were transthoracic injuries. 369 (79.4%) were discharged same day. None of the admitted patients died in hospital nor did any die within 30 days of admission, yielding a 30-day mortality of 0% (95% CI 0–0.8). At admission troponin was elevated in three (0.6%) patients, creatinine kinase (CK) in 30 (6.5%) and creatinine in six (1.3%). Electrocardiogram (ECG) abnormalities were described in 85 (18%) patients. No serious arrhythmias were detected. When comparing high- vs low-voltage or transthoracic vs other injuries, there were no significant differences between most of the outcomes, except for more ECG abnormalities in the transthoracic group, whereas more patients had elevated CK, and fewer discharged the same day in high-voltage injuries. Conclusion No in-hospital nor 30-day mortality or serious arrhythmias were encountered in those who were assessed, regardless of the type of injury. Troponin and creatinine were rarely elevated. It seems that conscious patients admitted with a normal ECG following a low-voltage injury may safely be discharged home after a quick clinical assessment including ECG.

scholarly journals Infantile Asymmetrical Diffuse Infiltrative Lipomatosis of the Abdomen and Upper Thighs: A Case Report with Long-Term Follow-up

2020 ◽  
Vol 2 (3) ◽  
Author(s):  
Fawzy Hamza ◽  
Tarek Elbanoby ◽  
Hazem Dahshan ◽  
Amr Elbatawy
Keyword(s):  
Case Report ◽  
Body Contouring ◽  
Early Age ◽  
Full Thickness ◽  
Full Thickness Skin Graft ◽  
Level Of Evidence ◽  
Thickness Skin ◽  
Long Term Follow Up

Abstract The authors present the case of an 11-year-old male patient with a diffuse infiltrative lipomatosis involving the abdomen, flanks, and upper thighs by applying body contouring principles at this early age. Abdominoplasty can be used in children for various purposes, including harvesting a full-thickness skin graft in burns or to treat congenital anomalies involving the pelviabdominal area. Level of Evidence: 5

Miscellaneous Burns and Related Conditions

2014 ◽  
Author(s):  
Nicole S. Gibran ◽  
David A Brown
Keyword(s):  
Ionizing Radiation ◽  
High Voltage ◽  
Nuclear Power ◽  
Low Voltage ◽  
Nuclear Explosion ◽  
Mustard Gas ◽  
Accidental Exposure ◽  
Mass Destruction ◽  
Chemical Burns

This review covers the recognition and management of electrical injury, chemical burns, injury from chemicals of mass destruction, cold injury, toxic epidermal necrolysis (TEN), and ionizing radiation burns. Electrical injuries can be divided into low-voltage burns, high-voltage burns, and super-high-voltage burns. Chemical burns are commonly caused by strong alkalis or acids and less commonly by anhydrous ammonia. Chemicals used in war include napalm, white phosphorus, and vesicants such as mustard gas, lewisite, and phosgene. Cold injuries result either from direct freezing (frostbite) or from more long-term exposure to an environment just above freezing (chilblain, pernio, trench foot). TEN, though not a burn, can cause similar tissue damage and is managed similarly in a number of respects. Ionizing radiation burns may be encountered in three settings: (1) deliberate or accidental exposure to radiation in a hospital, laboratory, or industrial environment (by far the most common setting); (2) failure of a nuclear power plant (as at Chernobyl); and (3) nuclear explosion. This review contains 12 figures, 5 tables, and 122 references.

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