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

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.

[1]  R. Sheridan,et al.  Surgical management and epidemiological trends of pediatric electrical burns. , 2020, Burns : journal of the International Society for Burn Injuries.

[2]  Kristina Schmiedchen,et al.  Direct current electrical injuries: A systematic review of case reports and case series. , 2020, Burns : journal of the International Society for Burn Injuries.

[3]  W. Qian,et al.  Epidemiology of electrical burns: a 10-year retrospective analysis of 376 cases at a burn centre in South China , 2019, The Journal of international medical research.

[4]  Hasanat Alamgir,et al.  Epidemiology and outcomes of burn injuries at a tertiary burn care center in Bangladesh. , 2019, Burns : journal of the International Society for Burn Injuries.

[5]  J. Biernaskie,et al.  Epidemiological analysis of pediatric burns in the Dominican Republic reveals a demographic profile at significant risk for electrical burns. , 2019, Burns : journal of the International Society for Burn Injuries.

[6]  J. Friedstat,et al.  Chemical, Electrical, and Radiation Injuries. , 2017, Clinics in plastic surgery.

[7]  G. Luo,et al.  Wound management and outcome of 595 electrical burns in a major burn center. , 2017, The Journal of surgical research.

[8]  A. Sokhal,et al.  Clinical spectrum of electrical burns - A prospective study from the developing world. , 2017, Burns.

[9]  O. Özdemir,et al.  Evaluation of children presenting to the emergency room after electrical injury. , 2015, Turkish journal of medical sciences.

[10]  S. S. St. Peter,et al.  Management of electrical and chemical burns in children. , 2014, The Journal of surgical research.

[11]  D. Scolnik,et al.  Pediatric Electrical Burn Injuries: Experience of a Large Tertiary Care Hospital and a Review of Electrical Injury , 2013, Pediatric emergency care.

[12]  M. Gokdemir,et al.  Factors Affecting the Clinical Outcome of Low-Voltage Electrical Injuries in Children , 2013, Pediatric emergency care.

[13]  Saurab Gupta,et al.  Electrical Injuries in Urban Children in New Delhi , 2013, Pediatric emergency care.

[14]  S. Talbot,et al.  Changing trends in pediatric upper extremity electrical burns , 2011, Hand.

[15]  J. Fraser,et al.  Children with burn injuries-assessment of trauma, neglect, violence and abuse , 2011, Journal of injury & violence research.

[16]  A. Holland,et al.  Electrical burn injuries in children , 2008 .

[17]  Z. Panthaki,et al.  Electrical Burns of the Upper Extremity in the Pediatric Population , 2008, The Journal of craniofacial surgery.

[18]  Jack D Sahl,et al.  Thermal burn and electrical injuries among electric utility workers, 1995-2004. , 2007, Burns : journal of the International Society for Burn Injuries.

[19]  D. Herndon,et al.  Serum creatinine kinase levels for diagnosing muscle damage in electrical burns. , 2005, Burns : journal of the International Society for Burn Injuries.

[20]  T. Brown,et al.  Management of high voltage electrical injury in children. , 2005, Burns : journal of the International Society for Burn Injuries.

[21]  J. Hunt,et al.  Electrical injuries: a 20-year review. , 2004, The Journal of burn care & rehabilitation.

[22]  A. Çelik,et al.  Pediatric electrical injuries: a review of 38 consecutive patients. , 2004, Journal of pediatric surgery.

[23]  B. Blackbourne,et al.  Death due to electrocution in childhood and early adolescence , 2003, Journal of paediatrics and child health.

[24]  R. Barrow,et al.  Electrical injuries: a 30-year review. , 1999, The Journal of trauma.

[25]  G. Besner,et al.  Pediatric electrical burns: management strategies. , 1997, Burns : journal of the International Society for Burn Injuries.

[26]  R. Sheridan,et al.  Mechanisms of pediatric electrical injury. New implications for product safety and injury prevention. , 1997, Archives of pediatrics & adolescent medicine.

[27]  M. Haberal,et al.  Visceral injuries, wound infection and sepsis following electrical injuries. , 1996, Burns.

[28]  J. Cone,et al.  Retrospective evaluation of admission criteria for paediatric electrical injuries. , 1995, Burns : journal of the International Society for Burn Injuries.

[29]  G. A. Smith,et al.  Electrical injuries in a pediatric emergency department. , 1995, Annals of emergency medicine.

[30]  S. Carleton,et al.  Cardiac problems associated with electrical injury. , 1995, Cardiology clinics.

[31]  J. Xiao,et al.  A clinical study of electrical injuries. , 1994, Burns : journal of the International Society for Burn Injuries.

[32]  A. Munster,et al.  High-voltage electrical injuries. , 1980, Maryland state medical journal.

[33]  M. Jeschke,et al.  Review of Adult Electrical Burn Injury Outcomes Worldwide: An Analysis of Low-Voltage vs High-Voltage Electrical Injury , 2017, Journal of burn care & research : official publication of the American Burn Association.

[34]  T. Muehlberger,et al.  Peripheral nerve compression associated with low-voltage electrical injury without associated significant cutaneous burn. , 2002, Plastic and reconstructive surgery.

[35]  A. Koumbourlis Electrical injuries. , 2002, Critical care medicine.