Sprengel Jannik, Rixen Stefanie, Kappenstein Oliver, Vetter Walter
Institute of Food Chemistry, University of Hohenheim, Garbenstr. 28, D-70599 Stuttgart, Germany.
German Federal Institute for Risk Assessment, Max-Dohrn-Str. 8-10, D-10589 Berlin, Germany.
Food Chem X. 2021 Jun 12;10:100122. doi: 10.1016/j.fochx.2021.100122. eCollection 2021 Jun 30.
Chlorinated paraffins (CPs) have been repeatedly detected in the kitchen environment. Especially baking ovens were contaminated with high CP amounts on the insides of the doors. To investigate if CPs could be transferred into baked food, we spiked self-synthesized single chain C-CP and C-CP standards onto the inside door of an unused, CP-free baking oven. Experiments were performed under different conditions to assess possible CP transportation pathways. Coconut fat was used as food simulant, the exhaust air was monitored with cellulose filter paper and remaining CPs were collected via cotton wipes. In all experiments, both C- and C-CPs could be identified in both the food simulant and the cellulose samplers. Mean transfer rates into the food simulant amounted to 2.2% for C-CPs and 5.8% for C-CPs. Baking of food in CP-containing baking ovens may perceptibly increase the CP intake of consumers.
在厨房环境中已多次检测到氯代石蜡(CPs)。特别是烤箱门内侧被大量的CPs污染。为了研究CPs是否会转移到烘焙食品中,我们将自行合成的单链C-CP和C-CP标准品添加到一个未使用过、不含CPs的烤箱门内侧。在不同条件下进行实验,以评估可能的CPs传输途径。使用椰子油作为食品模拟物,用纤维素滤纸监测废气,并通过棉布擦拭收集残留的CPs。在所有实验中,在食品模拟物和纤维素采样器中都能鉴定出C-CP和C-CP。C-CP向食品模拟物中的平均转移率为2.2%,C-CP为5.8%。在含有CPs的烤箱中烘焙食品可能会明显增加消费者的CPs摄入量。
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