HPLC Determination of Migration Levels of Crotonic Acid from Food Contact Materials
摘 要
将经处理的样品裁剪成0.3 cm2大小的碎片,取此碎片样品4份,按2 mL·cm-2的比例分别加入体积分数为10%,20%,50%的乙醇-水溶液和3%的乙酸-水溶液作为4种水基食品模拟物;在另一份样品中,按2 mL·cm-2的比例加入橄榄油作为油基食品模拟物。以上5份样品及食品模拟物在40℃下浸泡10 d,将4份水基浸泡液分别蒸发至近干,加入甲醇2 mL溶解残渣,所得溶液经0.2 μm滤膜过滤后进行高效液相色谱分析。以C18柱为固定相,用水(预先用甲酸调节酸度至pH 2.7)及甲醇(9+1)的混合液作为流动相进行色谱分离,在波长210 nm处进行紫外检测。测得水基浸泡液中巴豆酸的质量浓度在0.5~10 mg·L-1内与其峰面积值呈线性关系,检出限(10S/N)为0.5 mg·L-1;将油基浸泡液用甲醇5 mL振荡约30 s后,静置约10 min,再次振荡约30 s后,静置约10 min后,取出甲醇溶液,重复此甲醇萃取过程2次后,合并甲醇萃取液,蒸发至近干,加入甲醇2 mL溶解残渣,以下操作同上。测得油基浸泡液中巴豆酸的线性范围为1.0~20 mg·kg-1,检出限(10S/N)为1.0 mg·kg-1。方法用于测定塑料复合与纸塑复合类食品接触材料中巴豆酸的迁移量,加标回收率在86.2%~116%之间,测定值的相对标准偏差(n=6)不大于3.8%。
Abstract
The pre-treated sample was cut out into pieces of 0.3 cm2 and 4 portions were taken as samples and soaked separately with various water-based food simulants of (φ) 10%, 20%, 50% C2H5OH-H2O solution and (φ) 3% HOAc-H2O solution with their volumes calculated on the base of the ratio 2 mL·cm-2. To another portion of the sample, oil-based food simulant of olive oil was added with its volume calculated by the same ratio of volume to area. All the 5 portions of the sample were soaked at 40℃ for 10 d. In case of water-based soakers, each of the 4 soaked extract was evaporated to near-dryness, and the residue was dissolved in 2 mL of CH3OH. The solution obtained was filter through 0.2 μm filtering membrane and crotonic acid in the filtrate was determined by HPLC, using C18 column as the stantionary phase and mixture of CH3OH and H2O (pre-adjusted to pH 2.7 with formic acid) mixed in the volumic ratio of (1+9) as the mobile phase. UV-detection was made at the wavelength of 210 nm. In case of the oil-based soaker, the olive oil was extracted with 5 mL of methanol, by shaking for 30 s and standing for 10 min. The extraction was repeated for 1 time more, and the extract in CH3OH was separated and reserved. The process of extraction with CH3OH was repeated for 2 times. The extracts of CH3OH were combined and evaporated to near-dryness. The residue was dissolved in 2 mL of CH3OH, and the procedure was carried out in the same way as described above. Linearity ranges were obtained between 0.5 to 10 mg·L-1 for water-based food simulants and between 1.0 to 20 mg·kg-1 for oil-based food simulant, with values of detection limits (10S/N) of 0.5 mg·L-1 and 1.0 mg·kg-1 respectively. This method was applied to the determination of migration amount of crotonic acid from the food contact materials (including composites of plastics and of paper-plastics), giving values of RSDs (n=6) within 3.8% and values of recovery obtained by standard addition method in the range of 86.2%-116%.
中图分类号 O657.7 DOI 10.11973/lhjy-hx201803015
所属栏目 工作简报
基金项目 国家质检总局科技计划项目(2015IK275)
收稿日期 2017/2/27
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备注胡新功(1959-),女,天津人,高级工程师,研究方向为轻工商品检验检测
引用该论文: HU Xingong,HAN Wei,ZHAO Qing,YU Yanjun,ZHAO Cheng,LI Ningtao,WANG Libing. HPLC Determination of Migration Levels of Crotonic Acid from Food Contact Materials[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2018, 54(3): 317~321
胡新功,韩伟,赵青,于艳军,赵臣,李宁涛,王利兵. 高效液相色谱法测定食品接触材料中巴豆酸的迁移量[J]. 理化检验-化学分册, 2018, 54(3): 317~321
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参考文献
【1】陈重.化工百科全书——丁烯酸[M].北京:化学工业出版社, 1997.
【2】艾岩,胡钊.巴豆酸的制备及应用[J].生物技术世界, 2013(9):16-16.
【3】王海霞.巴豆酸-醋酸乙烯脂共聚物合成及表征[D].南宁:广西大学, 2006.
【4】United Nations. Recommendations on the transport of dangerous goods, model regulations, volume I[M]. New York and Geneva:United Nation, 2015.
【5】Commission Regulation (EU) No 10/2011 of 14 January 2011 on plastic materials and articles intended to come into contact with food[S].
【6】薛连海.水-甲酸-醋酸-巴豆醛-巴豆酸的气相色谱分析[J].色谱, 1989,7(6):388-389.
【7】ANGELA M, ADORNO T, HIRASAWA J S, et al. Development and validation of two methods to quantify volatile acids (C2-C6) by GC/FID:Headspace (automatic and manual) and liquid-liquid extraction (LLE).[J]. American Journal of Analytical Chemistry, 2014,5:406-414.
【8】EN 13130-1:2004 Materials and articles in contact with foodstuffs-Plastics substances subject to limitation-Part 1:Guide to test methods for the specific migration of substances from plastics to foods and food simulants and the determination of substances in plastics and the selection of conditions of exposure to food simulants[S].
【9】刘浩,王红武,丁建英,等.流动相的离子强度对RP-HPLC中抗生素色谱峰形的影响[J].中国抗生素杂志, 2007,32(1):25-32.
【2】艾岩,胡钊.巴豆酸的制备及应用[J].生物技术世界, 2013(9):16-16.
【3】王海霞.巴豆酸-醋酸乙烯脂共聚物合成及表征[D].南宁:广西大学, 2006.
【4】United Nations. Recommendations on the transport of dangerous goods, model regulations, volume I[M]. New York and Geneva:United Nation, 2015.
【5】Commission Regulation (EU) No 10/2011 of 14 January 2011 on plastic materials and articles intended to come into contact with food[S].
【6】薛连海.水-甲酸-醋酸-巴豆醛-巴豆酸的气相色谱分析[J].色谱, 1989,7(6):388-389.
【7】ANGELA M, ADORNO T, HIRASAWA J S, et al. Development and validation of two methods to quantify volatile acids (C2-C6) by GC/FID:Headspace (automatic and manual) and liquid-liquid extraction (LLE).[J]. American Journal of Analytical Chemistry, 2014,5:406-414.
【8】EN 13130-1:2004 Materials and articles in contact with foodstuffs-Plastics substances subject to limitation-Part 1:Guide to test methods for the specific migration of substances from plastics to foods and food simulants and the determination of substances in plastics and the selection of conditions of exposure to food simulants[S].
【9】刘浩,王红武,丁建英,等.流动相的离子强度对RP-HPLC中抗生素色谱峰形的影响[J].中国抗生素杂志, 2007,32(1):25-32.
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