模拟沙棘泥热加工过程中污染物的形成。

Modelling Contaminant Formation during Thermal Processing of Sea Buckthorn Purée.

机构信息

Integrated Center for Research, Expertise and Technological Transfer in Food Industry, Faculty of Food Science and Engineering, Dunarea de Jos University of Galati, 111 Domnească Street, 800201 Galati, Romania.

VUP Food Research Institute, National Agricultural and Food Centre, Department of Chemistry and Food Analysis, Priemyslená 4, 82475 Bratislava, Slovakia.

出版信息

Molecules. 2019 Apr 20;24(8):1571. doi: 10.3390/molecules24081571.

DOI:10.3390/molecules24081571

PMID:31010039

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6514760/

Abstract

: The impact of thermal treatment on acrylamide (ACR) and hydroxymethylfurfural (HMF) formation was investigated for thermally treated sea buckthorn purée. : An optimized procedure for minimizing ACR and HMF formation in thermally treated sea buckthorn purée was described. The precursors of ACR and HMF and their impact in heating of sea buckthorn purée to obtain jam-like products were also evaluated. : The contaminant content formed in samples was analyzed on thirteen running variants using a temperature range of 59.3-200.7 °C, and for heating durations between 5.9 and 34.1 min. The calculated equations of contaminant formation in sea buckthorn purée have established that the minimum content is formed at the lowest exposure time, between 10 and 20 min, for both ACR and HMF. The lowest ACR content was attained at 5.9-min exposure time and 130 °C temperature (0.3 µg/kg). For HMF the results revealed a lower quantity at 59.3 °C for 20-min exposure time (1.4 mg/kg). Conclusions: the found model is useful for the prediction of the best temperature/time conditions of the thermal treatment to obtain the lowest contaminates levels in the final product.

摘要

: 研究了热处理对沙棘果泥中丙烯酰胺（ACR）和羟甲基糠醛（HMF）形成的影响。 : 描述了一种优化的程序，用于最大限度地减少热处理沙棘果泥中 ACR 和 HMF 的形成。还评估了 ACR 和 HMF 的前体及其在加热沙棘果泥以获得果酱状产品中的影响。 : 在 13 个运行变体上使用 59.3-200.7°C 的温度范围和 5.9-34.1 分钟的加热时间分析了样品中形成的污染物含量。在沙棘果泥中形成污染物的计算方程表明，对于 ACR 和 HMF，最低含量都是在最短的暴露时间（10-20 分钟）形成的。ACR 的最低含量是在 5.9 分钟的暴露时间和 130°C 的温度下获得的（0.3 µg/kg）。对于 HMF，结果显示在 59.3°C 下 20 分钟的暴露时间（1.4 mg/kg）时含量较低。结论：所发现的模型可用于预测热处理的最佳温度/时间条件，以获得最终产品中最低的污染物水平。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1823/6514760/af4cef34b95d/molecules-24-01571-g001.jpg

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模拟沙棘泥热加工过程中污染物的形成。

Modelling Contaminant Formation during Thermal Processing of Sea Buckthorn Purée.

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