The trend of ammonia levels in patients with glufosinate ammonium poisoning with respect to neurotoxicity

A narrative review of contemporary lethal pesticides: unveiling the ongoing threat of pesticide poisoning

Following the 2011 ban on paraquat sales, Korea has witnessed a significant reduction in the mortality rate associated with acute pesticide poisoning. Traditionally, paraquat and diquat, alongside several highly toxic organophosphates, carbamates, and organochlorine insecticides, have been recognized as culprits in causing fatalities among patients with acute pesticide poisoning. However, despite global efforts to curtail the use of these highly toxic pesticides, certain pesticides still exhibit a level of lethality surpassing their established clinical toxicity profiles. Understanding the clinical progression of these pesticides is paramount for physicians and toxicologists, as it holds the potential to enhance patient prognoses in cases of acute poisoning. This review aims to address the persistence of such highly lethal pesticides, which continue to pose a grave threat to victims of acute poisoning.

Sensitive fluorescence detection of glyphosate and glufosinate ammonium pesticides by purine-hydrazone-Cu2+ complex

Organophosphorus pesticides play an important role as broad-spectrum inactivating herbicides in agriculture. Developing a method for rapid and efficient organophosphorus pesticides detection is still urgent due to the increasing concern on food safety. An organo-probe (ZDA), synthesized by purine hydrazone derivative and 2,2'-dipyridylamine derivative, was applied in sensitive recognition of Cu2+ with detection limit of 300 nM. Mechanism study via density functional theory (DFT) and job's plot experiment revealed that ZDA and Cu2+ ions form a 1:2 complex quenching the fluorescence emission. Moreover, this fluorescent complex ZDA-Cu2+ was applicable for detecting glyphosate and glufosinate ammonium following fluorescence enhancement mechanism, with detection limits of 11.26 nM and 11.5 nM, respectively. Meanwhile, ZDA-Cu2+ was effective and sensitive when it is used for pesticide detection, reaching the maximum value and stabilizing in 1 min. Finally, the ZDA-Cu2+ probe could also be tolerated in cell assay environment, implying potential bio-application.