Empirical models to predict the effect of sterilisation and storage on bisphenols migration from metallic can coatings into food simulants

Food Additives & Contaminants: Part A Pub Date : 2019-10-14 DOI:10.1080/19440049.2019.1670870

Sara Noureddine El Moussawi, Mathieu Cladière, H. Chébib, R. Ouaini, V. Camel

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引用次数: 4

Abstract

ABSTRACT Based on response surface methodology, empirical models were built to predict the influence of can processing (heat treatment) and storage conditions (time and temperature) on the migration of bisphenol compounds from the inner lacquer of tinplate cans (4 brands) into several food simulants. Analysis using liquid chromatography revealed the presence of BADGE.2H2O and BPA in all samples. Models were significant in fitting the levels of these two bisphenols in food simulants depending on the input variables, with excellent adjusted coefficients of determination. Their prediction performance was validated through running new data sets. Further comparison of predicted values with bisphenols levels measured in canned vegetables revealed that the proposed models are conservative. By the desirability of the response output, the models are capable of proposing the range of can processing and storage conditions that limit migration for further compliance with the regulation. The proposed approach could be a convenient tool for the industries to control processing conditions in order to ensure the conformity of canned foods.

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预测灭菌和储存对双酚类物质从金属罐涂层迁移到食品模拟物的影响的经验模型

基于响应面法，建立了罐头加工(热处理)和储存条件(时间和温度)对马口铁罐(4个品牌)内漆双酚类化合物迁移到几种食品模拟物中的影响的经验模型。液相色谱分析显示，所有样品中均存在BADGE.2H2O和BPA。模型在拟合食品模拟物中这两种双酚的水平方面非常重要，这取决于输入变量，具有很好的调整系数。通过运行新数据集验证了他们的预测性能。进一步将预测值与罐装蔬菜中测量的双酚含量进行比较，表明所提出的模型是保守的。通过响应输出的可取性，模型能够提出限制迁移以进一步遵守法规的罐装加工和存储条件的范围。该方法可以为工业控制加工条件，以确保罐头食品的符合性提供方便的工具。

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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Food Additives & Contaminants: Part A

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