Journal of The Korean Society of Clinical Toxicology

Original Article

Patterns of self-harm/suicide attempters who visited emergency department over the past 10 years and changes in poisoning as a major method (2011–2020): Kyu Hyun Pai, Sung Woo Lee, Su Jin Kim, Kap Su Han, Juhyun Song, Sijin Lee, Ji Hwan Park, Jeijoon Song; J Korean Soc Clin Toxicol. 2023;21(2):69-80. Published online December 29, 2023; DOI: https://doi.org/10.22537/jksct.2023.00019

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Purpose: Suicide ranks among the top causes of death among youth in South Korea. This study aimed to identify the characteristics of suicidal individuals treated at emergency departments between 2011 and 2020.
Methods
A retrospective analysis was conducted using data from January 2011 to December 2020 in the Injury Surveillance Cohort, a prospective registry. Patients’ sex, age, mortality, methods of self-harm, and previous suicide attempts were analyzed. The methods of self-harm were categorized into falls, asphyxiation, blunt injuries, penetrating injuries, poisoning, and others. Sub-groups with and without poisoning were compared.
Results
The proportion of self-harm/suicide attempts increased from 2.3% (2011) to 5.0% (2020). The mortality rate decreased from 10.8% (2011) to 6.3% (2020). Poisoning was the most common method (61.7%). Mortality rates ranged from 42.0% for asphyxiation to 0.2% for blunt injuries. Individuals in their 20s showed a marked increase in suicide/self-harm attempts, especially in the last three years. A large proportion of decedents in their 70s or older (52.6%) used poisoning as a method of suicide. The percentage of individuals with two or more previous attempts rose from 7.1% (2011) to 19.7% (2020). The death rates by poisoning decreased from 7.7% (2011) to 2.5% (2020).
Conclusion
Our findings underscore the urgent need for targeted interventions and suicide prevention policies. Managing and reducing suicide and self-harm in emergency settings will require a focus on poisoning, the 10–29 age group, and the elderly. This paper will be valuable for future policies aiming to reduce the societal burden of suicide and self-harm.

Citations

Citations to this article as recorded by

Trauma Patterns and Psychiatric Profiles in Suicide Attempts at a Regional Trauma Center in South Korea: A Retrospective Single-Center Study
Young Un Choi, Ji Young Hyun, Seongyup Kim, Keum Seok Bae, Jae Sik Chung, Il Hwan Park, Chan Young Kang, Tae Hui Kim, Chun Sung Byun
Journal of Clinical Medicine.2025; 14(12): 4218. CrossRef
Development of a Web Application for Simulating Plasma Drug Concentrations in Patients with Zolpidem Intoxication
Hwa Jun Cha, Sungpil Han, Kwan Cheol Pak, Hyungsub Kim
Pharmaceutics.2024; 16(5): 689. CrossRef

Attempted Suicide by Nitrogen Gas Asphyxiation: A Case Report: Sung-Wook Park, Seok-Ran Yeom, Sang-kyoon Han, Hyung-Bin Kim, Young-Mo Cho, Byung-Kwan Bae, Il-Jae Wang; J Korean Soc Clin Toxicol. 2017;15(1):47-50. Published online June 30, 2017; DOI: https://doi.org/10.22537/jksct.2017.15.1.47

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Abstract PDF: Nitrogen is an inert gas that is harmless to humans under normal conditions. While it is not inherently toxic, nitrogen gas becomes dangerous when it displaces oxygen, resulting in suffocation. Herein, we report a case of a 34-year-old man who attempted suicide by nitrogen asphyxiation who presenting with decreased mental function and agitation. Lactic acidosis and hyperammonemia were observed on presentation at the emergency department, but these improved after a few hours. After 2 days, the patient regained full consciousness, and was discharged without any complications. Survival after asphyxiation due to nitrogen gas is very rare, and these patients are more likely to have poorer outcomes. There is a potential for the increasing use of nitrogen gas as a method of committing suicide because of the ease of access to this gas.

Two Cases of Comatose Patients Presenting after Exposure to Hydrogen Sulfide Gas: Hyun-Ho Ryu, Byeong-Guk Lee, Kyung-Woon Jeung, Tag Heo, Yong-Il Min; J Korean Soc Clin Toxicol. 2009;7(1):26-31. Published online June 30, 2009

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Abstract PDF: Hydrogen sulfide is a by-product of decayed organic material and is ubiquitously found as an ingredient of manufacturing reagents or as an undesirable by-product of the manufacturing or industrial processing. Hydrogen sulfide is a chemical asphyxiant and interferes with cytochrome oxidase and aerobic metabolism. It has thus been deemed an important cause of work-related sudden death. This gas is particularly insidious due to the unpredictability of its presence and concentration and its neurotoxicity at relatively low concentrations, causing olfactory nerve paralysis and loss of the warning odor. Here, we report two cases of comatose patients presenting after accidental exposure to hydrogen sulfide gas.

Chemical Asphyxiants - Cyanides and Hydrogen Sulfides: Yang Ho Kim, Young Hee Choi, Choong Ryeol Lee, Ji Ho Lee, Cheolln Yoo, Hun Lee; J Korean Soc Clin Toxicol. 2003;1(1):12-20. Published online June 30, 2003

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Abstract PDF: Cyanides and hydrogen sulfide ($H_2S$) are major chemical asphyxiants. They have common mechanism of action which inhibit cellular respiration and induce histotoxic hypoxia. They do not generate ATP, and all processes dependent on ATP are stopped. No extraction of $O_2$ from blood decreases AV $O_2$ differences, and the shift to anaerobic glycolysis brings about lactic acidosis with high anion gap. The mainstay of the treatment is rapid treatment with appropriate use of antidotes. However, there are several differences between cyanides and $H_2S$. First, $H_2S$ is not metabolized by enzymes such as thiosulfate. Thus thiosulfate does not play any role in treatment of $H_2S$. Second, $H_2S$ is a more potent inhibitor of cytochrome aa3 than cyanide. Third, $H_2S$ induces more divergent neurologic sequele than cyanide. Finally, $H_2S$ is not absorbed via skin.

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