World Institute of Kimchi, Gwangju, Republic of Korea.
Department of Chemistry, Kohat University of Science and Technology, Kohat, Pakistan.
J Sci Food Agric. 2019 Nov;99(14):6474-6481. doi: 10.1002/jsfa.9926. Epub 2019 Aug 13.
Kimchi, a Korean food, is now produced and consumed in many other countries. In this study, the macro, trace, and toxic element content in varieties of kimchi from Korea and China was evaluated. A health-risk assessment, involving the calculation of estimated dietary intake values, was undertaken. To discriminate among samples with different origins, linear discriminant analysis (LDA) and principal component analysis (PCA) were applied.
The analytical methods used for analyses were successfully validated. In the quantification of elements, no significant differences were detected in the concentrations of the elements that were analyzed. Based on the fresh weight of kimchi, among the macro elements, the concentrations of Na and K were relatively high, with values of 4181.9-9919.8 mg kg and 1661.8-6623.5 mg kg , respectively. Among the trace elements that were analyzed, zinc in Korean samples, and strontium in Chinese samples showed the highest concentrations, at 2.67 and 2.98 mg kg , respectively. Concentration levels of the toxic trace elements were within permissible limits. The amount of daily intake and provisional daily intake of each element calculated based on kimchi intake confirmed its safety for consumption. Linear discriminant analysis and PCA successfully discriminated among the samples of Chinese and Korean origin.
The provisional daily intake of the toxic elements was within provisional tolerable daily intake values. The normal intake of kimchi could not pose a threat upon consumption. © 2019 Society of Chemical Industry.
泡菜是一种韩国食品,现在许多其他国家也在生产和食用。本研究评估了来自韩国和中国的各种泡菜中的常量、痕量和有毒元素含量。进行了健康风险评估,包括估计膳食摄入量值的计算。为了区分不同来源的样品,应用了线性判别分析(LDA)和主成分分析(PCA)。
所使用的分析方法成功得到验证。在元素的定量分析中,未检测到分析元素浓度存在显著差异。基于泡菜的新鲜重量,在常量元素中,Na 和 K 的浓度相对较高,分别为 4181.9-9919.8mgkg 和 1661.8-6623.5mgkg。在所分析的痕量元素中,韩国样品中的锌和中国样品中的锶浓度最高,分别为 2.67 和 2.98mgkg。有毒痕量元素的浓度水平在允许范围内。基于泡菜摄入量计算的每种元素的每日摄入量和暂定每日摄入量证实其可安全食用。线性判别分析和 PCA 成功地区分了来自中国和韩国的样品。
有毒元素的暂定每日摄入量在暂定可耐受每日摄入量值范围内。正常摄入泡菜不会对食用构成威胁。© 2019 化学工业协会。
