Contamination status and exposure risk of mycotoxins in Coicis Semen / 中国中药杂志

By investigating the contamination status and predicting the exposure risk of mycotoxin in Coicis Semen, we aim to provide guidance for the safety supervision of Chinese medicinal materials and the formulation(revision) of mycotoxin limit standards. The content of 14 mycotoxins in the 100 Coicis Semen samples collected from five major markets of Chinese medicinal materials in China was determined by UPLC-MS/MS. The probability evaluation model based on Monte Carlo simulation method was established after Chi-square test and One-way ANOVA of the sample contamination data. Health risk assessment was performed on the basis of margin of exposure(MOE) and margin of safety(MOS). The results showed that zearalenone(ZEN), aflatoxin B_1(AFB_1), deoxynivalenol(DON), sterigmatocystin(ST), and aflatoxin B_2(AFB_2) in the Coicis Semen samples had the detection rates of 84%, 75%, 36%, 19%, and 18%, and the mean contamination levels of 117.42, 4.78, 61.16, 6.61, and 2.13 μg·kg~(-1), respectively. According to the limit standards in the Chinese Pharmacopoeia(2020 edition), AFB_1, AFs and ZEN exceeded the standards to certain extents, with the over-standard rates of 12.0%, 9.0%, and 6.0%, respectively. The exposure risks of Coicis Semen to AFB_1, AFB2, ST, DON, and ZEN were low, while 86% of the samples were contaminated with two or more toxins, which needs more attention. It is suggested that the research on the combined toxicity of different mycotoxins should be strengthened to accelerate the cumulative exposure assessment of mixed contaminations and the formulation(revision) of toxin limit standards.

Health Risk Assessment of PAHs from Wheat (Tritcum specie) Bambara Nut (Vigna subterranea) and Pigeon Peas (Cajanus cajanifolia) Consumed in Nigeria

Polycyclic aromatic hydrocarbons, PAHs are carcinogenic and genotoxic in nature and have been of worldwide concern. This study aimed at determining the PAH contamination levels in types of wheat (Tritcum specie), bambara groundnut (Vigna subterranea) and pigeon peas (Cajanus cajanifolia) commonly consumed in the eastern part of Nigeria and assess the health risk associated with their consumption. The grain samples were analyzed of sixteen priority PAHs using gas chromatography coupled with flame ionization detector, GC-FID after extraction by sonication. Estimation of daily intakes were carried out using adult male and female consumers while margin of exposure was used to assess the health risk applying bench mark dose levels for the indicators-BaP, PAH2, PAH4 and PAH8. The sixteen PAHs were detected in all the analyzed grains. The ∑16 PAHs concentrations (× 10¯²µg/kg) detected ranged from 25.004±20.553 in white pigeon peas to 36.493±20.305 in red pigeon peas. The eight probable carcinogenic PAHs (∑PAH8) detected ranged from 10.913±4.295 to 17.444±7.023 also in white and red pigeon peas respectively. From the estimation of daily intake calculated, the total dietary exposure of male (41.42 µg/kg bw/day) was less than that of female (48.24 µg/kg bw/day) implying that adult female are more exposed. The MOE for adult male individual ranged from 49,893 in pure white bambara groundnut to 392,943 in pigeon peas. While for adult female individual, the values of MOE ranged from 48,110 in bambara groundnut to 336,770 in pigeon peas. The values of margin of MOE obtained for all the indicators were much higher than 10000 which according to EFSA indicate low concern for human health and considered low priority for risk management actions. The PAHs values detected were all below 1.0 µg/kg which is the permissible limit established by EFSA. Based on these facts, these grains are safe for consumption.

Determination and Risk Assessment of Six Hepatotoxic Pyrrolizidine Alkaloids in Verbenae Herba / 中国实验方剂学杂志

Objective:To establish ultra-performance liquid chromatography-tandem mass spectrometry （UPLC-MS/MS） for simultaneous determination of six hepatotoxic pyrrolizidine alkaloids in Verbenae Herba， and to carry out preliminary risk assessment according to the research results. Method:An ACQUITY UPLC HSS T3 column （2.1 mm×100 mm， 1.8 μm） was used for analysis with 0.05% formic acid and 2.5 mmol·L^-1 ammonium formate in water （A）-0.05% formic acid and 2.5 mmol·L^-1 ammonium formate in acetonitrile （B） as mobile phase for gradient elution （0-12 min， 3%-8%B； 12-25 min， 8%-15%B； 25-26 min， 15%-3%B； 26-30 min， 3%B）， the flow rate was 0.3 mL·min^-1， the column temperature was 40 ℃， and the injection volume was 1 μL. MS system was operated by electrospray ionization （ESI） in the positive ion mode with multiple reaction monitoring mode. MS parameters of triple quadrupole and six analytes were optimized for qualitative and quantitative analysis. According to the determination results， the risk assessment was carried out by using margin of exposure （MOE） combined with transfer rate of hot water extraction. Result:Based on the instrument precision， linear range， repeatability， stability， recovery and other methodological validations， the results were in conformity with relevant standards of quantitative analysis. The linear ranges of intermedine， lycopsamine， intermedine <italic>N</italic>-oxide， lycopsamine<italic> N</italic>-oxide， echimidine<italic> N</italic>-oxide and echimidine were good （<italic>r</italic>≥0.999 0） between peak area and mass concentration in the ranges of 0.984-49.20， 0.994-49.70， 1.012-50.60， 1.032-51.60， 1.004-50.20， 1.016-50.80 µg·L^-1， respectively. The average recoveries of these six analytes were 87.2%-94.2% with relative standard deviation （RSD）<4.0%. Their MOE values were >10 000. Conclusion:The UPLC-MS/MS established in this study is stable and feasible， which can provide scientific basis for the quality control and safety evaluation of hepatotoxic pyrrolizidine alkaloids in Verbenae Herba.

Risk assessment of dietary lead exposure among adults in Xiacheng District of Hangzhou City / 上海预防医学

Objective:To understand the risk of dietary lead exposure among adults in Xiacheng District of Hangzhou City. Methods:During 2013-2018， commercial foods were randomly collected in Xiacheng District of Hangzhou City for lead content testing. In combination with lead test result and dietary consumption data， the margin of exposure （MOE） method was used to assess the exposure risk of dietary lead. Results:A total of 827 samples from 14 kinds of commercial foods were collected， and the median of lead content was between 0.002 5 mg/kg and 0.100 0 mg/kg. The detection rate was 53.20%， and the over-standard rate was 1.09%. The median of daily dietary lead exposure among adults was 0.174 2 μg/kg BW， and the MOE value was 7.46. Vegetables and fruits were the dominant contributor to dietary intake of lead， accounting for 39.18% and 12.18%， respectively. Conclusion:The exposure of dietary lead among adults in Xiacheng District of Hangzhou City is at an acceptable level. The contribution of vegetables and fruits to dietary lead is higher than other foods， and needs more attention.

Risk Assessment of Dietary Exposure to Acrylamide in the Norwegian Population

Request from the Norwegian Food Safety Authority The Norwegian Food Safety Authority (NFSA) requested the Norwegian Scientific Committee for Food Safety (VKM) to assess whether Norwegians in general or subgroups in the population could be expected to have different dietary exposure to acrylamide than reported for other European population groups, and if found to be different to calculate their exposure. Furthermore, VKM was asked to identify food categories with a high potential to increase acrylamide exposure; both for the whole population and for specific groups. Finally, VKM was asked to characterise the risk of acrylamide exposure to the Norwegian population compared to the rest of the European population. The Norwegian Food Safety Authority intends to use this risk assessment as a basis for the Norwegian contribution to the ongoing legislative work in the EU and to consider the necessity to adjust the existing national dietary advices or to issue new ones. How VKM has addressed the request VKM appointed a working group consisting of members of the Panel on Contaminants to answer the request. The Panel on Contaminants has reviewed and revised the draft prepared by the working group and finally approved the risk assessment on dietary acrylamide exposure in the Norwegian population. What acrylamide is and its toxicity to humans Acrylamide is a water-soluble organic chemical formed in carbohydrate-rich foods from naturally present carbohydrates and amino acids during cooking or other heat processing at temperatures above 120°C. Acrylamide is a widely used industrial chemical and is also formed in tobacco smoke. Acrylamide is known to be neurotoxic in humans and is classified as a probable human carcinogen. Concerns about exposure to acrylamide in the general population arose in 2002 when it was discovered in heat-treated foods. Dietary acrylamide exposure in Europe and Norway Dietary acrylamide exposure has been assessed by combining food consumption data and acrylamide concentration data and by biological markers of exposure both in Norway and different European countries. In the EFSA 2015 Scientific Opinion on acrylamide in food, chronic dietary exposure was calculated for 61,338 individuals from 28 surveys and 17 different European countries covering the following age groups: infants (<1 year old), toddlers (≥1 year to <3 years old), other children (≥3 years to <10 years old), adolescents (≥10 years to <18 years old), adults (≥18 years to <65 years old), elderly (≥65 years to <75 years old) and very elderly (≥75 years old). The estimation of human exposure to acrylamide revealed that infants, toddlers and other children were the most exposed groups, but EFSA concluded that dietary acrylamide represents a health concern for all age groups. In previous Norwegian studies reporting dietary acrylamide exposure, the mean and median exposure in adolescents and adults were in the range of 0.3-0.5 μg/kg bw per day. These estimates are in the same range as the mean daily exposures estimated by EFSA for adolescents (0.4-0.9 μg/kg bw) and adults (0.4-0.5 μg/kg bw). Taking into consideration the results from previous exposure estimates and knowledge about food consumption patterns in recent consumption surveys in Norway, VKM concludes that Norwegian adults, adolescents and children older than three years of age are not likely to have a different exposure to acrylamide than corresponding age groups in other European countries. VKM therefore decided not to perform a new exposure assessment in these age groups. No previous studies in Norway have assessed acrylamide exposure in infants and children less than three years of age. Information from national and European dietary surveys shows that Norwegian 1-year-olds, but not 2-year-olds, have higher consumption of infant porridge than other European toddlers. VKM therefore decided to conduct a full exposure estimate in 1-year-old toddlers. The comparison of data on acrylamide occurrence in food reported by EFSA (2015) and in foods sampled in Norway showed that acrylamide concentrations in the main food categories do not differ essentially, with the exception of three categories. The category “Potato crisps and snacks” has higher acrylamide concentrations in Norwegian samples than in those reported by EFSA, while the categories “Baby foods, other than cereal-based” and “Processed cereal-based baby food” (i.e. infant porridge) have lower concentrations in Norwegian samples than in those reported by EFSA. VKM considered that Norwegian analytical values were sufficient for exposure calculations if the concentrations were analysed in 16 samples or more. Infant porridge had 52 analysed samples and VKM considered that the brands sampled are representative for infant porridge on the Norwegian market. VKM calculated acrylamide exposure based on food consumption in Norwegian 1-year-olds by two approaches: one using EFSA concentration data only; and the other using Norwegian concentration data for food categories including 16 samples or more, and EFSA data for the remaining categories. Both approaches resulted in acrylamide exposures within the exposure range for toddlers reported by EFSA (2015). When using EFSA concentration data only the calculated daily exposure (mean: 1.6 μg/kg bw and P95: 3.2 μg/kg bw) is in the upper range calculated by EFSA for toddlers (mean range: 0.9-1.9 μg/kg bw, P95 range: 1.2-3.4 μg/kg bw). When using Norwegian concentration data for food categories including 16 Norwegian samples or more and EFSA data for the remaining categories, the calculated daily exposure (mean: 0.9 μg/kg bw, P95: 1.6 μg/kg bw) is in the lower range of what EFSA has calculated for toddlers. The dietary exposure for acrylamide in Norwegian 1-year-olds is within the same range as reported by EFSA for European toddlers. Although the acrylamide-concentration was lower in infant porridge (i.e. “Processed cereal-based baby food”) sampled in Norway than in those reported by EFSA, Norwegian 1-year-olds have higher consumption of infant porridge than European toddlers. In addition to infant porridge, soft bread is a major source of acrylamide in Norwegian 1-year-olds. Food categories with high potential to increase acrylamide exposure Baby food and soft bread contributed most to acrylamide exposure in the 1-year-olds, while food items contributing the most to acrylamide exposure in adults are fried potato products, coffee, biscuits, crackers and crisp breads, and soft bread. Previous Norwegian studies and EFSA (2015) showed that in all populations groups except toddlers, ‘fried potato products’ is a food group with high potential to increase acrylamide exposure. Acrylamide is also contributed by food items commonly consumed such as coffee and bread, and this is of concern in Norway as well as in the rest of Europe. The EFSA risk assessment included exposure scenarios addressing the potential impact of home-cooking habits, locations of consumption, and preferences for particular food products. These scenarios showed that food preparation, and particularly conditions of potato frying, resulted in large variations and a possible increase of acrylamide exposure by as much as 80%. VKM considers that these scenarios carried out by EFSA are equally relevant for the Norwegian population. The temperature and browning of fried potato products will have a considerable impact on the exposure to acrylamide. VKM calculated three simplified scenarios to illustrate the influence of consumption of particular food items on acrylamide exposure. These scenarios confirmed that potato crisps, French Fries and coffee are food items with high potential to increase acrylamide exposure. Risk characterisation of dietary acrylamide exposure in Norway VKM used the same reference points as EFSA (2015), and calculated Margin of Exposures (MOEs) for assessing health risk. MOE is the ratio between a reference value and the estimated dietary exposure. The MOE approach provides an indication of the level of safety but it does not quantify the risk as such. For non-neoplastic effects, EFSA used a BMDL10 value of 0.43 mg/kg bw/day as the reference point based on animal studies of neurotoxicity, and considered a substance-specific MOE of 125 or above as a sufficient safety margin for no health concern. For neoplastic effects, EFSA used a BMDL10 value of 0.17 mg/kg bw/day as the reference point based on animal studies, and taking into account overall uncertainties in the interpretation, EFSA concluded that a MOE of 10 000 or higher would be of low concern for public health. The EFSA risk assessment concluded that the MOEs for non-neoplastic effects were above 125 for all age groups indicating no health concern, whereas the MOEs for non-neoplastic effects were substantially lower than 10 000, indicating a health concern for all age groups. The dietary acrylamide exposure in Norwegian adolescent and adults reported in previous studies were within the range calculated by EFSA for these age groups. VKM therefore concludes that the resulting MOEs for non-neoplastic and neoplastic effects of acrylamide for adolescent and adults will be similar to those calculated by EFSA. VKM calculated acrylamide exposure based on food consumption in Norwegian 1-year-olds by two approaches: one using EFSA concentration data only; and the other using Norwegian concentration data for food categories including 16 samples or more, and EFSA data for the remaining categories. Both approaches resulted in comparable MOEs. For both non-neoplastic and neoplastic effects, MOEs for 1-year-olds were similar to those reported in EFSA 2015. For non-neoplastic effects of dietary acrylamide exposure, VKM reached the same conclusion as EFSA, which is that the MOEs across all age groups indicate no health concern. For neoplastic effects of dietary acrylamide exposure, VKM reached the same conclusion as EFSA, whi

Exposure risk assessment of aflatoxin B1 in edible vegetable oil by using the margin of exposure in Guangxi / 中国食品卫生杂志

Objective This report aims to assess the exposure risk of aflatoxin B1 in edible vegetable oil in Guangxi.Methods By using margin of exposure (MOE),the report analyzes the dietary exposure of aflatoxin B1 in edible vegetable oil with the data from contamination survey and dietary intake survey.Results For the vegetable oil sample,the content of aflatoxin B1 was between 0.50-320.00 μg/kg.The detection rate of peanut oil was 78.08％ (114/146) which was higher than other vegetable oil,and the exceeding rate was 31.51％ (46/146).For peanut oil,the average content was 30.80 μg/kg,the dietary exposure of the population was 17.30 ng/kg BW,and the MOE was 18.For the prepackaged peanut oil samples,the average content of aflatoxin B1 was 6.33 μg/kg,which was below the limit.While for the bulk peanut oil,the average content of AFB1 was 41.50 μg/kg,which was more than 1.08 times of the limit,and the dietary exposure was 25.59 ng/kg BW.The MOE of bulk peanut oil was 12,1/8 of the prepackaged peanut oil.Conclusion Food safety regulators should pay more attention to bulk peanut oil products,the priority in the risk management measures.At the same time,related department should also promote healthy education for the residents.

Probabilistic risk assessment of the dietary exposure of Chinese population to acephate using margin of exposure / 中国药理学与毒理学杂志

OBJECTIVE Calculate the dietary exposure and exposure risk of Chinese consumers to acephate,using the margin of exposure method.METHODS Determine the bench mark dose of acephate by 21 -day gavage experiment of rats.According to the data from the 2002 National Diet and Nutrition Survey,the 2000 -2006 national food conta mination monitoring program,the 2005 -2006 export monitoring data of customs,calculate the dietary exposure of Chinese consumers to acephate by probabilistic assessment.Estimate the exposure risk by co mparing the margin of exposure with 100. RESULTS The bench mark dose of acephate was 0.75 mg·kg -1 ,the BMDL was 0.51 mg·kg -1 .The exposure of children was higher than that of adults.The proportion at risk of group 1 -6 y,7 -17 y and 18 y or higher was 5%,1 % and 0.1 %,respectively.CONCLUSION So me consumers was of dietary exposure risk to acephate.The high exposure of children should be of great concern.

Estimate of dietary intake of chloropropanols (3-MCPD and 1, 3-DCP) and health risk assessment / Estimativa da ingestão de cloropropanóis (3-MCPD e 1,3-DCP) e avaliação do risco à saúde

Chloropropanols, including 3-monochloropropane-1,2-diol (3-MCPD) and 1,3-dichloropropan-2-ol (1,3-DCP), comprise a group of chemicalcontaminants with carcinogenic and genotoxic properties. They have been found in a variety of processed foods and food ingredients, suchas hydrolyzed vegetable protein, soy sauce, cereal-based products, malt-derived ingredients, and smoked foods. This study aimed to assessthe dietary exposure to 3-MCPD and 1,3-DCP in Brazil and verify whether the presence of these substances in foods could represent healthrisks. The intake was calculated by combining data on food consumption, provided by the Consumer Expenditure Survey 2008-2009, withthe levels of contaminant occurrence determined by gas chromatography-mass spectrometry. The exposure to 3-MCPD ranged from 0.06 to0.51 µg.kg bw–1.day–1 considering average and high consumers, while the intake of 1,3-DCP was estimated to be 0.0036 µg.kg bw–1.day–1 inthe worst case scenario evaluated. Based on these results, it was verified that the Brazilians’ exposure to chloropropanols does not present asignificant health risk. However, the consumption of specific foods containing high levels of 3-MCPD could exceed the provisional maximumtolerable daily intake of 2 μg.kg bw–1 established for this compound and, therefore, represent a potential concern.

Os cloropropanóis, entre eles o 3-monocloropropano-1,2-diol (3-MCPD) e o 1,3-dicloropropan-2-ol (1,3-DCP), compreendem um grupo de contaminantes químicos com propriedades carcinogênicas e genotóxicas, encontrados em diversos alimentos processados e ingredientes alimentícios, como proteína vegetal hidrolisada, molho de soja, produtos à base de cereais, ingredientes derivados de malte e alimentos defumados. Este trabalho teve como objetivo avaliar a exposição ao 3-MCPD e 1,3-DCP pela dieta no Brasil e verificar se a presença destes compostos em alimentos pode representar um risco à saúde da população. A ingestão foi calculada combinando-se dados sobre o consumo alimentar, fornecidos pela Pesquisa de Orçamento Familiares 2008-2009, com os níveis de ocorrência dos contaminantes, determinados por cromatografia gasosa – espectrometria de massas. A exposição ao 3-MCPD variou de 0,06 a 0,51 µg.kg pc–1.dia–1 considerando médios e grandes consumidores, enquanto que a ingestão de 1,3-DCP foi estimada em 0,0036 µg.kg pc–1.dia–1 no pior cenário avaliado. Com base nesses resultados, verificou-se que a exposição aos cloropropanóis não representa um risco significativo à saúde da população brasileira.Entretanto, o consumo de determinados alimentos contendo altos níveis de 3-MCPD poderia ultrapassar a ingestão diária máxima tolerável provisória de 2 μg.kg pc–1 estabelecida para este composto e, assim, representar uma preocupação potencial.