Federal Office of Public Health, Chemical Risks Section, Bern, Switzerland.
Food Addit Contam Part A Chem Anal Control Expo Risk Assess. 2013;30(3):587-98. doi: 10.1080/19440049.2012.751631. Epub 2013 Jan 4.
Migration experiments with small sheets cut out from ovenable PET trays were performed in two-sided contact with 3% acetic acid as food simulant at various temperatures. The fraction of diffusible antimony (Sb) was estimated to be 62% in the PET sample under study. Apparent diffusion coefficients of Sb in PET trays were determined experimentally. Measurement of migration between 20 and 150°C yielded a linear Arrhenius plot over a wide temperature range from which the activation energy (E(a)) of 188 ± 36 kJ mol(-1) and the pre-exponential factor (D(0)) of 3.6 × 10(14) cm(2) s(-1) were determined for diffusing Sb species. E (a) was similar to previously reported values for PET bottles obtained with a different experimental approach. E (a) and D (0) were applied as model parameters in migration modelling software for predicting the Sb transfer in real food. Ready meals intended for preparation in a baking oven were heated in the PET trays under study and the actual Sb migration into the food phase was measured by isotope dilution ICP-MS. It was shown that the predictive modelling reproduces correctly experimental data.
采用小型可烘烤 PET 托盘从烤箱中切出的薄片进行迁移实验,在双侧接触条件下,以 3%的乙酸作为食品模拟物在不同温度下进行。研究中 PET 样品中可扩散的锑(Sb)分数估计为 62%。通过实验确定了 Sb 在 PET 托盘内的表观扩散系数。在 20 至 150°C 之间的迁移测量得到了一个宽温度范围内的线性 Arrhenius 图,从中确定了扩散 Sb 物种的活化能(E(a))为 188 ± 36 kJ mol(-1),前指数因子(D(0))为 3.6 × 10(14) cm(2) s(-1)。E(a)与用不同实验方法获得的 PET 瓶的先前报道值相似。E(a)和 D(0) 被用作迁移建模软件中的模型参数,用于预测实际食品中的 Sb 转移。用于在烤箱中制备的即食餐在研究中的 PET 托盘内加热,并通过同位素稀释 ICP-MS 测量 Sb 实际迁移到食物相中。结果表明,预测模型正确地再现了实验数据。
