Abstract

Introduction: Electricity is an essential resource in modern society. However, its ubiquitous presence also presents inherent risks to human life. Although electrocution deaths account for a small proportion of overall fatalities, which can be preventable, which represents a significant public health concern due to accidental exposure, equipment malfunction, and failure to use proper safety precautions. Objective: To analyze the demographic profile, seasonal variation, occupation, and forensic characteristics of electrocution deaths in Northwest Delhi, India, over five years. Methods: A retrospective review was conducted on 105 autopsy-confirmed electrocution death cases from the Department of Forensic Medicine at Dr. Babasaheb Ambedkar Medical College, Rohini, Delhi (2018–2022). Results: Electrocution fatalities accounted for approximately 1.2% of all autopsy cases. Males predominated (95 cases, 90.5%), with the most affected age group being 21–30 years (40 cases, 38.1%), followed by 11–20 years (26 cases, 24.8%) and 31–40 years (21 cases, 20.0%). Cases peaked during the monsoon season (June– September; 73 cases, 69.5%), with the highest incidence observed between 12:00 PM and 5:00 PM (41 cases, 39.0%). The labor class represented the most common occupational group (24 cases, 22.9%), and the most common source of electrocution was the exposed electric wires and faulty electrical boards (18 cases, 17.1%). Upper extremity involvement was most frequent (73 cases, 69.5%), with entry wounds identified in 92 cases (87.6%) and both entry and exit wounds observed in 7 cases (6.7%). Conclusion: The study indicates that electrocution deaths in the Northwest region of Delhi are predominantly due to accidents and occur most often in young males, particularly during the monsoon season and afternoon hours. So, several preventative strategies including improved electrical safety education, regular maintenance of electrical installations, and heightened public awareness are essential to reduce these fatalities.

• 1.   Rautji R.R.A., Rudra A., Behera C., Dogra T.D. Electrocution in South Delhi: a retrospective study. Med Sci Law. 2003; 43(4): 350–2.
• 2.   Shaha K.K., Edwin A. Electrocution-related mortality: a retrospective review of 118 deaths in Coimbatore, India, between January 2002 and December 2006. Med Sci Law. 2010; 50(2): 72–4.
• 3.   Mukherjee B., Farooqui J.M., Farooqui A.A. Retrospective study of fatal electrocution in a rural region of western Maharashtra, India. J Forensic Leg Med. 2015; 32: 1–3.
• 4.   Behera C., Sikary A.K., Rautji R., Gupta S.K. Electrocution deaths reported in South Delhi, India: a retrospective analysis of 16 years of data from 2002 to 2017. Med Sci Law. 2019; 59(4): 240–6.
• 5.   Kuhtic I. Electrical mark in electrocution deaths: A 20-years study. TOFORSJ. 2012; 5(1): 23–7.
• 6.   Sheikhazadi A., Ghadyani M.H. Electrocutionrelated mortality: A survey of 295 deaths in Tehran, Iran between 2002 and 2006. Am J Forensic Med Pathol. 2010; 31(1): 42–5.
• 7.   Fatovich D.M. Electrocution in Western Australia, 1976–1990. Med J Aust. 1992; 157(11): 762–4.225 IJFMP/Volume 18 Number 4 October–December 2025
• 8.   Rautji R.R.A., Rudra A, Behera C., Dogra TD. Electrocution in South Delhi: a retrospective study. Med Sci Law. 2003; 43(4): 350–2.
• 9.   Tirasci Y.G., Subasi M., Gürkan F. Electrocutionrelated mortality: A review of 123 deaths in Diyarbakir, Turkey between 1996 and 2002. Tohoku J Exp Med. 2006; 208(2):141–5.
• 10.   Dokov W., B.M. A study of fatal electrical injuries in Smolyan District, Republic of Bulgaria. Internet J Forensic Sci [Internet]. 2008 [cited 2025 Aug 30]; 3(2): NA–NA. Available from: https://ispub.com/IJFS/3/2/3423
• 11.   Kumar S.V., Anoop K., Singh U.S. Electrocutionrelated mortality in northern India – a 5-year retrospective study. Egypt J Forensic Sci. 2014; 4(1): 1–6.
• 12.   Shaha K.K., Joe A.E. Electrocution-related mortality: A retrospective review of 118 deaths in Coimbatore, India, between January 2002 and December 2006. Med Sci Law. 2010; 50(2): 72–4.
• 13.   Marak F., Sangma M.M.B., Kumar G. Study of electrocution deaths in Puducherry. IP Int J Forensic Med Toxicol Sci [Internet]. 2017 [cited 2025 Aug 30]; 2(1): 13-16. Available from: https://www.ijfmts.com/article-details/4722
• 14.   Mellen P.F., Walter V.W., Kao G.F. Electrocution: a review of 155 cases with emphasis on human factors. J Forensic Sci. 1992; 37(4): 1016–22.
• 15.   Peng Z.S., Cai. Study on electrocution death by low-voltage. Forensic Sci Int. 1995; 76(2): 115–9.
• 16.   Byard R.W., Gilbert J.D., James R.A., Nadeau J.M., Blackbourne B.D., Krous H.F. Death due to electrocution in childhood and early adolescence. J Paediatr Child Health. 2003; 39(1): 46–8.
• 17.   Bailey B.F.S., Gaudreault P. Prevalence of potential risk factors in victims of electrocution. Forensic Sci Int. 2001; 123(1): 58–62.

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