Substituted Urea Herbicide (Diuron) Induced Haemolytic Anemia: A Case of Unknown Complication in Humans

Asia Pacific Journal of Medical Toxicology Pub Date : 2019-12-01 DOI:10.22038/APJMT.2019.14808

S. Weerasinghe, I. Gawarammana, Anuradha Colambage

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引用次数: 1

Abstract

Background: Substituted urea herbicide is widely used in the agricultural industry and is accessible to most people around the globe. Accidental or deliberate poisoning is an anticipated complication of these agrochemical products. Case presentation: We present a 15-year-old girl following deliberate self-ingestion of substituted urea herbicide (Diuron). She was diagnosed with Diuron induced methemoglobinemia and treated with intra venous methylene blue. Later she developed hemolytic anemia and needed 3 units of blood transfusions. Her haemolysis was thought to be due to methylene blue with concomitant Glucose‐6‐phosphate dehydrogenase (G6PD) deficiency as no other possible cause was found for haemolysis. But on follow-up visits, G6PD deficiency was excluded by screening test and enzyme level assay. Conclusion: Heamolytic anemia is a possible rare complication that should be anticipated in patients presented with the significant amount of substituted urea herbicide poisoning. Studies have found the possibility of reactive oxygen species accumulation in cells leading to oxidative damage. But we were unable to find any reported cases of haemolysis in humans. We postulate that the inhibition of NADPH production like G6PD deficiency may be the key mechanism that causes haemolysis in humans by creating an acquired G6PD deficiency status in red blood cells. However, further studies are needed to identify the exact mechanism of hemolysis in humans.

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替代尿素除草剂（Diuron）诱导的溶血性贫血：一例人类未知并发症

背景：取代尿素除草剂在农业中广泛使用，全球大多数人都能获得。意外或故意中毒是这些农用化学品的预期并发症。案例介绍：我们介绍了一名15岁女孩，她故意自行摄入替代尿素除草剂（Diuron）。她被诊断为Diuron诱导的高铁血红蛋白血症，并接受静脉内亚甲蓝治疗。后来她患上了溶血性贫血，需要输血3个单位。她的溶血被认为是由于亚甲基蓝伴随葡萄糖-6-磷酸脱氢酶（G6PD）缺乏，因为没有发现其他可能的溶血原因。但在随访中，通过筛查和酶水平测定排除了G6PD缺乏症。结论：溶血性贫血可能是一种罕见的并发症，在大量替代尿素除草剂中毒的患者中应予以预防。研究发现，活性氧物质在细胞中积累可能导致氧化损伤。但我们没有发现任何报告的人类溶血病例。我们推测，像G6PD缺乏一样抑制NADPH的产生可能是通过在红细胞中产生获得性G6PD缺乏状态而导致人类溶血的关键机制。然而，还需要进一步的研究来确定人类溶血的确切机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Asia Pacific Journal of Medical Toxicology

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Asia Pacific Journal of Medical Toxicology (APJMT) aims to expand the knowledge of medical toxicology and tries to provide reliable information in this field for medical and healthcare professionals. APJMT mainly focuses on research related to medical toxicology issues in the Asia Pacific region and publishes articles on clinical and epidemiological aspects of toxicology, poisonings emergency care, addiction, drug interactions and adverse effects. The journal accepts and welcomes high quality papers in the form of original articles and rarely review articles, case reports and scientific letters relevant to medical practice in toxicology.