Suicide is an important cause of premature mortality, accounting for an estimated 877 000 deaths every year (World Health Organization, 2003). In many agricultural communities of low- and middle-income countries, pesticide self-poisoning accounts for a large proportion of these deaths (Reference Gunnell and EddlestonGunnell & Eddleston, 2003). In 1985, using data from Sri Lanka, Jeyaratnam estimated that there were approximately 2.9 million cases of acute pesticide poisoning, resulting in about 220 000 deaths each year in the developing world (Reference JeyaratnamJeyaratnam, 1985a ). More recently, according to the finding that pesticide ingestion accounted for over 60% of suicides in many rural areas of China and South East Asia, Gunnell & Eddleston (Reference Gunnell and Eddleston2003) estimated that there may be as many as 300 000 deaths each year from intentional poisoning (i.e. suicide by ingestion of pesticides) in these regions alone. This makes it likely that pesticide poisoning is the most frequently used method of suicide worldwide.
The research and policy attention that pesticide poisoning has received has been relatively small in comparison with the magnitude of the problem (Reference Gunnell and EddlestonGunnell & Eddleston, 2003; Reference Buckley, Roberts and EddlestonBuckley et al, 2004). Jeyaratnam (Reference Jeyaratnam1985a ) suggested that part of the reason why pesticide poisoning had not received the global attention it deserved was the lack of scientific evidence concerning the extent of the problem. Even though a global estimate is still not possible today, because of the lack of large-scale, rigorous surveillance data, evidence is growing that the burden of pesticide poisoning has by no means been underestimated. Although data from low-income countries in South America are less comprehensive than from China and South-East Asia, evidence is emerging that pesticide poisoning is equally important in such settings. In Brazil, for example, the high suicide rates in tobacco growing regions may be owing to the wide use and availability of pesticides (Reference CsillagCsillag, 1996). Furthermore, pesticides accounted for 18% of male and 7% of female hospital admissions for self-harm in Campinas, Brazil, in 2002-2004 (Reference Fleischmann, Bertolote and de LeoFleischmann et al, 2005). In Southern Trinidad, over 80% of suicides in one rural area were by pesticide poisoning (Reference Hutchinson, Daisley and SimeonHutchinson et al, 1999). In Suriname, a high proportion of both fatal (55%) and non-fatal (44%) episodes of suicidal behaviour involved pesticides (Reference Graafsma, Kerkhof and GibsonGraafsma et al, 2006). In Africa, data from Zimbabwe show rising levels of admissions for organophosphate self-poisoning; self-poisoning accounted for about three-quarters of the approximately 200 admissions in one study (Reference Dong and SimonDong & Simon, 2001). More recently, data from Malawi implicated pesticide self-poisoning in almost 80% of suicides (Reference Dzamalala, Milner and LiombaDzamalala et al, 2006).
Despite the problems in estimating the global burden of pesticide poisoning, we may safely assume that we are confronted with millions of cases of pesticide poisoning, hundreds of thousands of which result in deaths each year in low- and middle-income countries. There is an urgent need for immediate action.
APPROACHES TO SUICIDE PREVENTION
Two of the major components of current international suicide prevention strategies are the improved recognition and treatment of mental illness and restricting access to commonly used methods of suicide (World Health Organization, 2004).
Mental disorders are found less frequently in suicides in Asian than in Western countries, possibly because a greater proportion of deaths in Asia result from the use of highly lethal pesticides in impulsive acts of self-harm. Nevertheless, mental illness is present in a significant proportion of Asian suicides (Reference Phillips, Yang and ZhangPhillips et al, 2002) and is thought to play an important role in suicidal behaviours, underlining the role of psychiatrists and other mental health workers in these settings.
Epidemiological evidence demonstrates that restricting access to commonly used methods of suicide may lead to reductions in overall as well as method-specific suicide rates. The potential impact of changing the availability of pesticides on both pesticide poisoning and overall suicide numbers has been demonstrated in Western Samoa (Reference Bowles and DiekstraBowles, 1995). Furthermore, the benefits of restricting pesticide use to those compounds least harmful to humans in self-poisoning is demonstrated by the widely differing case fatality rates associated with different pesticides - from >60% for paraquat (Reference Hettiarachchi and KodithuwakkuHettiarachchi & Kodithuwakku, 1989) to <10% for several other products (Reference EddlestonEddleston, 2000; Reference Eddleston, Eyer and WorekEddleston et al, 2005). Likewise, just as the development and widespread use of N-acetyl cysteine had a dramatic effect on trends in paracetamol mortality in England and Wales (Reference Flanagan and RooneyFlanagan & Rooney, 2002), so too may the development of new antidotes to pesticide self-poisoning reduce suicides in low- and middle-income countries. International research in this area should be a global priority (Reference Buckley, Roberts and EddlestonBuckley et al, 2004). However, to date, the global response to the problem of self-poisoning with pesticides has been poor.
AN INTERSECTORAL GLOBAL PUBLIC HEALTH INITIATIVE
In collaboration with other relevant United Nations agencies, governments, academic institutions, non-governmental organisations and interested parties, the World Health Organization has announced an intersectoral global public health initiative with the overall goal of reducing morbidity and mortality related to pesticide poisoning, adhering to a strategy of concerted action at various levels. The five objectives of the programme are to:
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(a) review and recommend improved pesticide regulatory policies;
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(b) implement sustainable epidemiological surveillance and monitoring of pesticide poisoning in clinical settings and communities;
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(c) improve the medical management and mental healthcare of people with pesticide poisoning in healthcare facilities at different levels;
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(d) provide training in the safe handling of pesticides and identification and management of pesticide poisoning at different sectors and levels;
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(e) develop or strengthen community programmes that minimise risks of intentional and unintentional pesticide poisoning.
There are three components to the World Health Organization strategy. First, to establish sentinel projects in selected countries with a high burden of intentional and unintentional pesticide poisoning. Second, to establish regional centres, associated with the sentinel project sites, for the prevention and management of pesticide poisoning and for enhanced surveillance, training and community action. Third, to disseminate information to governments, decision makers and the public at large about insights, experience, and lessons learnt from research, formulated as recommendations to guide global policy and local action for the prevention and management of pesticide poisoning.
When suicidal behaviour plays an important role in non-fatal and fatal self-poisoning by pesticides, it is key that relevant preventive measures are anchored in national suicide prevention programmes; these, unfortunately, mostly do not exist as yet in low- and middle-income countries. To this end, the World Health Organization has started to work with governments worldwide to raise awareness of the importance and magnitude of suicidal behaviours and to provide technical assistance in the development and implementation of national strategies for suicide prevention.
It is crucial that governments ratify and implement the hazardous chemicals and wastes conventions (i.e. the Basel, Rotterdam, and Stockholm Conventions) which cover key elements of the management of hazardous chemicals (see http://www.basel.int; http://www.pic.int; http://www.pops.int). Whereas this first crucial step has been taken by many countries, the implementation poses major challenges, such as the shortage of funds, the lack of expertise, human resources and training, the need for advanced technologies and equipment, the limited database systems available and the lack of public awareness. Konradsen et al (Reference Konradsen, van der Hoek and Gunnell2005) stressed the need for these conventions not only to propose actions such as phasing out the most toxic chemicals, promoting alternative pest management strategies, or improving safe storage, but also to explicitly include self-poisonings in risk assessments and to deal directly with the subject of self-harm.
CLOSING REMARKS
The available data suggest that acute pesticide poisoning has been a major problem in low- and middle-income countries for many years and that it should be a major public health concern today. Jeyaratnam (Reference Jeyaratnam1985b ) argued over 20 years ago that most research studies and publications on the impact of pesticides on health concentrated on aspects relevant to the industrialised world, and that the industrialised countries have in fact been able to successfully control pesticide poisoning.
Although little has been done in low- and middle-income countries, there is encouraging work in progress. Pilot studies are under way in some areas of China and Sri Lanka to assess the effects on suicide and suicide attempts in rural areas of the adoption by farmers of a double-locked box where pesticides are stored. In Sri Lanka, the non-governmental organisation Sumithrayo and other groups are active in evaluating interventions of this sort. Early results from one group working on the feasibility of double-locked boxes in Sri Lanka suggest that this is a practical approach to pursue, if developed in collaboration with local communities, signalling the importance of large-scale evaluations (F. Konradsen, personal communication, 2006). With creativity, willingness and appropriate funds much can be done to prevent this unnecessary loss of life.
Considerable work is still required to determine the appropriate balance between public health approaches to reduce pesticide poisoning and the need of the agricultural sector for crop protection products.
Action has to be effective at least in the areas of pesticide policy, pesticide information, mental healthcare, clinical management of pesticide intoxication and restricting hazardous exposure to pesticides. In view of the complexity and novelty of many of these areas, a solid yet feasible research programme has to back them. This will only succeed if broad intersectoral and financial support is made available involving the governmental and the private sector, including relevant non-governmental organisations and agencies of the United Nations.
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