LC-DAD法同时测定酱油中苯甲酸、对羟基苯甲酸甲酯和对羟基苯甲酸丁酯含量的验证及不确定度评定

Y. Aristiawan, Dillani Putri Ramadhaningtyas, D. Styarini
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引用次数: 1

摘要

化学食品保鲜是人类为保护食品的自然特性和延长食品保质期而采用的常用策略。虽然防腐剂有助于保持食物新鲜和阻止细菌生长,但有些防腐剂如果摄入超过规定的限量,就会有害。本工作采用了一些典型的使用方法——苯甲酸、对羟基苯甲酸甲酯和对羟基苯乙酸正丁酯,目的是建立一种同时液相色谱法(LC)来检测酱油基质中的每种物质。在使用二极管阵列检测器分析进行LC之前,在此程序中进行液相和C18固相萃取。在格式化缓冲液(pH 4.4)和酸化乙腈的梯度洗脱中,目标成分被成功分离。校准曲线线性范围为0.61–140 mg/kg,而苯甲酸、对羟基苯甲酸甲酯和对羟基苯酸正丁酯的定量限分别为0.41、0.10和0.11 mg/kg。中间精密度和回收率分别在0.15-1.89%和100.5-103.3%之间。样品测量的扩展不确定度(k=2)估计为3.4-6.5%。所提供的方法符合验证验收标准,可作为实验室中ppm水平的常规方法使用。
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Validation and Uncertainty Evaluation of an LC-DAD Method for Simultaneous Quantification of Benzoic Acid, Methylparaben, and N-Butylparaben in Soy Sauce
Chemical food preservation is the common strategy used by human to preserve the natural properties and to increase the shelf life of food. Although preservatives are useful to keep the food fresh and to stop the bacterial growth, there are certain preservatives that are harmful if taken in more than the prescribed limits. Some of the typical used—benzoic acid, methylparaben, and n-butylparaben—were employed in this work with the aim of establishing a simultaneous liquid chromatography (LC) method for detecting each in soy sauce matrices. Liquid and C18 solid phase extraction were performed in this procedure prior to LC using Diode Array Detector analysis. In gradient elution of a format buffer (pH 4.4) and acidified acetonitrile, the target components were successfully separated. Calibration curve ranged from 0.61–140 mg/kg linearly while the limit of quantification for benzoic acid, methylparaben, and n-butylparaben were 0.41, 0.10, and 0.11 mg/kg, respectively. The intermediate precision and recovery were in the range between 0.15-1.89% and 100.5-103.3%, respectively. The expanded uncertainty (k=2) in sample measurement was estimated at 3.4-6.5%. The offered method was conformed to the validation acceptance criteria and can be applied as a routine method in the laboratory at ppm level.
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