农业农药急性人体致死毒性：前瞻性队列研究。

Acute human lethal toxicity of agricultural pesticides: a prospective cohort study.

机构信息

South Asian Clinical Toxicology Research Collaboration, Faculty of Medicine, University of Peradeniya, Peradeniya, Sri Lanka.

出版信息

PLoS Med. 2010 Oct 26;7(10):e1000357. doi: 10.1371/journal.pmed.1000357.

DOI:10.1371/journal.pmed.1000357

PMID:21048990

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2964340/

Abstract

BACKGROUND

agricultural pesticide poisoning is a major public health problem in the developing world, killing at least 250,000-370,000 people each year. Targeted pesticide restrictions in Sri Lanka over the last 20 years have reduced pesticide deaths by 50% without decreasing agricultural output. However, regulatory decisions have thus far not been based on the human toxicity of formulated agricultural pesticides but on the surrogate of rat toxicity using pure unformulated pesticides. We aimed to determine the relative human toxicity of formulated agricultural pesticides to improve the effectiveness of regulatory policy.

METHODS AND FINDINGS

we examined the case fatality of different agricultural pesticides in a prospective cohort of patients presenting with pesticide self-poisoning to two clinical trial centers from April 2002 to November 2008. Identification of the pesticide ingested was based on history or positive identification of the container. A single pesticide was ingested by 9,302 patients. A specific pesticide was identified in 7,461 patients; 1,841 ingested an unknown pesticide. In a subset of 808 patients, the history of ingestion was confirmed by laboratory analysis in 95% of patients. There was a large variation in case fatality between pesticides-from 0% to 42%. This marked variation in lethality was observed for compounds within the same chemical and/or WHO toxicity classification of pesticides and for those used for similar agricultural indications.

CONCLUSION

the human data provided toxicity rankings for some pesticides that contrasted strongly with the WHO toxicity classification based on rat toxicity. Basing regulation on human toxicity will make pesticide poisoning less hazardous, preventing hundreds of thousands of deaths globally without compromising agricultural needs. Ongoing monitoring of patterns of use and clinical toxicity for new pesticides is needed to identify highly toxic pesticides in a timely manner.

摘要

背景

农业农药中毒是发展中国家的一个主要公共卫生问题，每年至少有 25 万至 37 万人因此死亡。过去 20 年，斯里兰卡对特定农药的限制使农药死亡人数减少了 50%，而农业产量并未下降。然而，监管决策迄今为止并未基于配制成农药的人类毒性，而是基于使用纯未配制成农药的老鼠毒性的替代物。我们旨在确定配制成的农业农药对人类的相对毒性，以提高监管政策的有效性。

方法和发现

我们在 2002 年 4 月至 2008 年 11 月期间，对两家临床试验中心因农药自杀而就诊的患者进行了前瞻性队列研究，以检查不同农业农药的病死率。摄入的农药是根据病史或容器的阳性鉴定来确定的。9302 名患者摄入了一种单一的农药。7461 名患者确定了具体的农药；1841 名患者摄入了未知农药。在 808 名患者的一个子集中，有 95%的患者通过实验室分析证实了摄入的历史。不同农药之间的病死率存在很大差异，从 0%到 42%不等。这种致命性的巨大差异在同一化学物质和/或农药的世界卫生组织毒性分类内的化合物以及用于类似农业用途的化合物中都有观察到。

结论

人类数据提供了一些农药的毒性排名，这些排名与基于老鼠毒性的世界卫生组织毒性分类形成了鲜明对比。基于人类毒性进行监管将使农药中毒的危险性降低，在不影响农业需求的情况下，在全球范围内防止数十万人死亡。需要对新农药的使用模式和临床毒性进行持续监测，以便及时发现高度有毒的农药。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4dbd/2964340/b1ce353dfa82/pmed.1000357.g001.jpg

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农业农药急性人体致死毒性：前瞻性队列研究。

Acute human lethal toxicity of agricultural pesticides: a prospective cohort study.

机构信息

出版信息

BACKGROUND

METHODS AND FINDINGS

CONCLUSION

背景

方法和发现

结论

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