A total of 33 pesticides have been banned from Chinese medicinal materials and decoction pieces(plants) according to Chinese Pharmacopoeia(2020 edition). According to the chemical structures, they are mainly divided into seven categories: organophosphorus compounds, organochlorines, carbamates, amidines, sulfonylureas, phenylpyrazoles, and ethers. These banned pesticides exhibit neurotoxicity, reproductive toxicity, immune system toxicity, teratogenicity, carcinogenesis, and mutagenesis, seriously damaging human and animal health. They affect not only the quality and safety of traditional Chinese medicines and resulting products, but also their competitiveness in the international market. Due to the numerous varieties of traditional Chinese medicines and their complex substrates, it is necessary to establish a universal and highly sensitive method for pesticide residue detection. This review systematically summarized the residual status, toxicity, and analytical methods of banned pesticides in traditional Chinese medicines, and forecasted the prospects of different analytical techniques, so as to provide reference for further safety and risk assessment of banned pesticide residues in traditional Chinese medicines, thus ensuring the safe production of traditional Chinese medicines.
China ; Drugs, Chinese Herbal/toxicity* ; Humans ; Medicine, Chinese Traditional ; Organophosphorus Compounds ; Pesticide Residues/toxicity* ; Pesticides/analysis*

OBJECTIVETo establish the threshold of toxicological concern(TTC) approach and to apply it in the risk assessment of metabolites, degradation and reaction products of pirimicarb.

METHODSTTC decision tree approach based on Cramer classification was established and Lazar software was used to predict the genotoxicity of the seven transformation products of pirimicarb, namely, R34836, R34885, R35140, R31805, R34865, R16210 and R16192. Dietary exposure in general population as well as in six age population groups was estimated by using data from the Chinese National Nutrition and Health Survey and pirimicarb residue data from national chemical surveillance data in 2011. TTC decision tree approach was used for risk assessment and the exposure was compared with the corresponding TTC values.

RESULTSOf the seven transformations of pirimicarb active substance, namely, R34836, R34885, R35140, R31805, R34865, R16210 and R16192, the maximum dietary exposure of mean and large portion(P 97.5) were all belong to 2-6 age group. The mean exposures of the seven transformation products for 2-6 age group,were 0.0290, 0.0207, 0.0015, 0.0320, 0.0005, 0.6918 and 0.1274 µg/kg,respectively, and the corresponding P 97.5 exposures were 0.0817,0.0581,0.0042,0.0900,0.0014, 1.9459 and 0.3585 µg/kg. Besides, the mean and P 97.5 exposure of R16210 for 2-6 age group was the largest,which were 0.6918 and 1.9459 µg/kg, accounting for 46.12% and 129.73% of the TTC threshold,respectively.

CONCLUSIONTTC decision tree approach is a useful tool for prior screening and primary risk assessment of the transformation products of pesticide active substance.

Carbamates ; toxicity ; Food Contamination ; Humans ; Maximum Allowable Concentration ; Pesticide Residues ; toxicity ; Pesticides ; toxicity ; Pyrimidines ; toxicity ; Risk Assessment

Due to the diversity of toxicologically relevant substances, the uncertainty of target compounds and the specificity of samples, toxicological screening techniques have always been valued by the forensic toxicologists. Depending on its powerful separation ability, superhigh resolution and accurate mass measurement, combined with the two levels spectrum database matching and abundance ratio of isotope ion, the liquid chromatography-high resolution mass spectrometry (LC-HRMS) analyzers have increasingly advantage in screening and identification of chemical compound. This review focuses on the applications of LC-HRMS in screening and identification of drug-of-abuse, prescription drugs, pesticide and stimulant. The prospect of LC-HRMS in forensic toxicology analysis is also included.
Central Nervous System Agents/analysis* ; Chromatography, Liquid/methods* ; Doping in Sports ; Forensic Toxicology/methods* ; Humans ; Pesticide Residues/analysis* ; Pesticides/analysis* ; Sensitivity and Specificity ; Substance Abuse Detection/methods* ; Tandem Mass Spectrometry/methods* ; Toxicity Tests/methods*