Identification of strategies to prevent death after pesticide self-poisoning using a Haddon matrix
- PMID: 17018677
- PMCID: PMC1950775
- DOI: 10.1136/ip.2006.012641
Identification of strategies to prevent death after pesticide self-poisoning using a Haddon matrix
Abstract
Despite pesticide self-poisoning causing around 300 000 deaths each year in the rural Asia Pacific region, no comprehensive public health response has yet been formulated. The authors have developed a Haddon matrix to identify factors that increase the risk of fatal rather than non-fatal pesticide self-poisoning in Sri Lanka. Many important host factors such as age, gender, and genetics are not alterable; factors that could be changed-alcohol use and mental health-have previously proved difficult to change. Interventions affecting agent or environmental factors may be easier to implement and more effective, in particular those limiting the human toxicity and accessibility of the pesticides, and the quality, affordability, and accessibility of health care in the community. Controlled studies are required to identify effective strategies for prevention and harm minimization and to garner political support for making the changes necessary to reduce this waste of life. Lessons learnt from Sri Lanka are likely to be highly relevant for much of rural Asia.
Conflict of interest statement
Competing interests: none.
Comment in
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Unalterable host factors? A social epidemiologist's view of the Haddon matrix.Inj Prev. 2006 Oct;12(5):285-6. doi: 10.1136/ip.2006.013912. Inj Prev. 2006. PMID: 17018667 Free PMC article.
References
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- Jeyaratnam J. Acute pesticide poisoning: a major global health problem. Wld Hlth Statist Quart 199043139–144. - PubMed
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