N. Zaitseva, T. Nurislamova, Olga A. Mal’tseva, Tatyana V. Chinko, Daria Yu. Subbotina
{"title":"Methodical support for controlling safety of cereals for children (exemplified by furan and methylfuran)","authors":"N. Zaitseva, T. Nurislamova, Olga A. Mal’tseva, Tatyana V. Chinko, Daria Yu. Subbotina","doi":"10.47470/0016-9900-2023-102-7-713-719","DOIUrl":null,"url":null,"abstract":"Introduction. The study addresses issues related to developing a procedure for identification of chemicals in food products in practical instrumental investigations. We have validated the method for quantification of a heterocyclic compound (furan) and sylvan (methylfuran) in grain-based cereals for children. \nThe aim of this study was to develop a precise GC-MS-method for quantifying a heterocyclic compound and sylvan in food products to control their safety for children, especially infants. \nMaterials and methods. The research objects were quantification means (QM) as a certain amount of an analyzed heterocyclic compound and sylvan (the mass share of the analyzed compound is 99%) provided by Sigma Aldrich Corporation (USA), as well as milk and milk-free dry cereals for babies. The study involved using an Agilent 7890А gas chromatographer with 5975С quadrupole mass-spectrometric detector. Sample preparation involved extraction and concentration of furan and methylfuran from food samples by statistical vapour-liquid equilibrium analysis and subsequent gas-chromatographic analysis of vapour phase. \nResults. The procedure for quantification of furan and methylfuran is an original scientific and technical development based on experimental data. It gives an opportunity to identify furan and methylfuran micro-admixtures in food samples with high precision and sensitivity with a range of concentrations between 0.93 and 9.37 ng and between 0.91 and 9.13 ng accordingly. The ultimate indicators describing acceptability of the results obtained by furan and methylfuran quantification included error not higher than 24%, пintra-laboratory precision (σRл ) not higher than 10%, correctness (± σCл ) not higher than 22%. \nConclusion. The developed technique has shown high selectivity, sensitivity, reliability and satisfactory accuracy. The methodology meets the criteria of the State Standard of the Russian Federation GOST R ISO 5725-1-6-2002 and can be used for laboratory studies of food safety by enterprises and institutions engaged in quality control and research of food products and food raw materials.","PeriodicalId":12550,"journal":{"name":"Gigiena i sanitariia","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-08-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Gigiena i sanitariia","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.47470/0016-9900-2023-102-7-713-719","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Medicine","Score":null,"Total":0}
引用次数: 0
Abstract
Introduction. The study addresses issues related to developing a procedure for identification of chemicals in food products in practical instrumental investigations. We have validated the method for quantification of a heterocyclic compound (furan) and sylvan (methylfuran) in grain-based cereals for children.
The aim of this study was to develop a precise GC-MS-method for quantifying a heterocyclic compound and sylvan in food products to control their safety for children, especially infants.
Materials and methods. The research objects were quantification means (QM) as a certain amount of an analyzed heterocyclic compound and sylvan (the mass share of the analyzed compound is 99%) provided by Sigma Aldrich Corporation (USA), as well as milk and milk-free dry cereals for babies. The study involved using an Agilent 7890А gas chromatographer with 5975С quadrupole mass-spectrometric detector. Sample preparation involved extraction and concentration of furan and methylfuran from food samples by statistical vapour-liquid equilibrium analysis and subsequent gas-chromatographic analysis of vapour phase.
Results. The procedure for quantification of furan and methylfuran is an original scientific and technical development based on experimental data. It gives an opportunity to identify furan and methylfuran micro-admixtures in food samples with high precision and sensitivity with a range of concentrations between 0.93 and 9.37 ng and between 0.91 and 9.13 ng accordingly. The ultimate indicators describing acceptability of the results obtained by furan and methylfuran quantification included error not higher than 24%, пintra-laboratory precision (σRл ) not higher than 10%, correctness (± σCл ) not higher than 22%.
Conclusion. The developed technique has shown high selectivity, sensitivity, reliability and satisfactory accuracy. The methodology meets the criteria of the State Standard of the Russian Federation GOST R ISO 5725-1-6-2002 and can be used for laboratory studies of food safety by enterprises and institutions engaged in quality control and research of food products and food raw materials.
介绍该研究涉及在实际仪器调查中制定食品中化学品识别程序的相关问题。我们已经验证了儿童谷物中杂环化合物(呋喃)和席烷(甲基呋喃)的定量方法。本研究的目的是开发一种精确的GC-MS方法来定量食品中的杂环化合物和西尔万,以控制其对儿童,尤其是婴儿的安全性。材料和方法。研究对象是由Sigma-Aldrich Corporation(USA)提供的定量方法(QM),作为一定量的分析杂环化合物和syvan(分析化合物的质量份额为99%),以及用于婴儿的牛奶和无奶干谷物。该研究涉及使用带有5975С四极质谱检测器的安捷伦7890А气相色谱仪。样品制备包括通过统计气液平衡分析和随后的气相色谱分析从食品样品中提取和浓缩呋喃和甲基呋喃。后果呋喃和甲基呋喃的定量程序是基于实验数据的原始科学技术发展。它提供了一个机会,以高精度和高灵敏度识别食品样品中的呋喃和甲基呋喃微掺合料,浓度范围在0.93至9.37纳克之间,相应地在0.91至9.13纳克之间。描述呋喃和甲基呋喃定量结果可接受性的最终指标包括误差不高于24%,室内精密度(σRл)不高于10%,正确性(±σCл)不得高于22%。结论所开发的技术具有高选择性、高灵敏度、高可靠性和令人满意的准确性。该方法符合俄罗斯联邦国家标准GOST R ISO 5725-1-6-2002的标准,可用于食品和食品原料质量控制和研究的企业和机构的食品安全实验室研究。