祛斑美白类化妆品中6种功效成分的同时测定及使用情况分析

doi:10.3969/j.issn.1001-1803.2022.07.016

摘要/Abstract

摘要：

建立水基类、乳液类、膏霜类不同基质类型的祛斑美白类化妆品中α-熊果苷、β-熊果苷、脱氧熊果苷、烟酰胺、氢醌和苯酚含量测定的液相色谱法。样品使用70%甲醇溶液提取,经C₁₈（250×4.6 mm,5 μm）色谱柱分离后,以甲醇-水为流动相梯度洗脱,采用二极管阵列检测器检测。结果表明,α-熊果苷、β-熊果苷、脱氧熊果苷、烟酰胺、氢醌和苯酚在一定浓度范围内线性关系良好,r²>0.999,方法检出限和定量下限分别为6~12 mg/kg,20~40 mg/kg。6个待测物的方法回收率为93.4%~109.6%,RSD（n=6）为0.2%~3.8%。测定了150批祛斑美白类样品,均未检出脱氧熊果苷、氢醌和苯酚,检出的烟酰胺、β-熊果苷和α-熊果苷含量分别在0.10%~5.26%,0.01%~3.32%和0.01%~0.57%之间。本法准确、灵敏、前处理简单,可用于化妆品中6种目标组分的测定。

关键词: 高效液相色谱法, 祛斑美白类化妆品, 功效成分, 熊果苷, 烟酰胺, 氢醌, 苯酚

Abstract:

A high performance liquid chromatography method to determine six functional ingredients in whitening cosmetics was established for the simultaneous detection of α-arbutin, β-arbutin, deoxyarbutin, nicotinamide, hydroquinone and phenol in water-based, emulsion and cream cosmetics. For satisfactory sensitivity, stability and precision, the effects of detection wavelength, chromatographic column, mobile phase, extraction solvents, injection volume and column temperature were explored. Finally, the samples were extracted by 70% methanol solution, then the extract was separated on Waters HSS T3-C₁₈ （250×4.6 mm, 5 μm） column using methanol-water as the mobile phase with a flow rate of 1.0 mL/min, and qualitative and quantitative analysis was performed by high performance liquid chromatography with diode array detector at the detection wavelength of 220 nm. The results show that there are good linear relationships for 6 compounds in certain concentration range, with correlation coefficients （r²） larger than 0.999. The limits of detection （LOD） and limits of quantitation （LOQ） are in the range of 6-12 mg/kg and 20-40 mg/kg, respectively. The spiked recoveries for six compounds are in the range of 93.4%-109.6% with relative standard deviations （RSD） of 0.2%-3.8%. 150 batches of samples were determined. No deoxyarbutin, hydroquinone or phenol was detected. The content of nicotinamide, β-arbutin and α-arbutin range from 0.10% to 5.26%, 0.01% to 3.32% and 0.01% to 0.57%, respectively. The developed method is accurate, sensitive and simple for the determination of the six components in cosmetics. It is not only an effective method to detect deoxyarbutin in cosmetics, but also provides basis for simultaneous determination of these six components.

Key words: high performance liquid chromatography, whitening cosmetics, functional ingredient, arbutin, nicotinamide, hydroquinone, phenol

中图分类号:

TQ658

严俊,王容,李泽桦,张丽媛,程巧鸳,颜琳琦. 祛斑美白类化妆品中6种功效成分的同时测定及使用情况分析[J]. 日用化学工业, 2022, 52(7): 791-796.

Yan Jun,Wang Rong,Li Zehua,Zhang Liyuan,Cheng Qiaoyuan,Yan Linqi. Simultaneous determination and usage analysis of six functional ingredients in whitening cosmetics[J]. China Surfactant Detergent & Cosmetics, 2022, 52(7): 791-796.

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参考文献 15

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化合物	线性范围/（mg/L）	线性方程	r²	LOD/（mg/kg）	LOQ/（mg/kg）
β-熊果苷	1.0~100	y=1.31x-0.252 0	1.000 0	12	40
α-熊果苷	1.0~100	y=1.42x-0.639 6	1.000 0	12	40
氢醌	0.5~50	y=2.31x-1.984 0	1.000 0	6	20
烟酰胺	0.5~50	y=3.35x-1.181 3	1.000 0	6	20
苯酚	0.5~50	y=2.17x-0.048 3	1.000 0	6	20
脱氧熊果苷	0.5~50	y=1.95x-0.461 7	1.000 0	6	20

基质类型	目标物	加标量/（mg/kg）			回收率/%			精密度/%
水剂	β-熊果苷	40.0	200.0	800.0	98.9	103.6	104.5	1.4	0.9	0.5
	α-熊果苷	40.0	200.0	800.0	109.6	105.1	104.8	1.5	1.8	1.4
	氢醌	20.0	100.0	400.0	98.2	95.2	93.4	3.2	2.7	0.8
	烟酰胺	20.0	100.0	400.0	106.6	105.2	105.0	3.3	1.1	0.2
	苯酚	20.0	100.0	400.0	105.7	103.9	105.6	1.1	0.9	0.1
	脱氧熊果苷	20.0	100.0	400.0	108.2	106.9	106.7	1.2	1.1	0.3
乳液	β-熊果苷	40.0	200.0	800.0	104.1	105.8	105.0	2.3	1.7	1.4
	α-熊果苷	40.0	200.0	800.0	107.4	105.5	105.0	1.8	3.4	0.6
	氢醌	20.0	100.0	400.0	105.3	96.6	100.0	3.5	0.6	2.7
	烟酰胺	20.0	100.0	400.0	104.0	105.5	105.9	1.2	1.0	1.0
	苯酚	20.0	100.0	400.0	106.0	104.6	104.0	2.2	0.8	1.5
	脱氧熊果苷	20.0	100.0	400.0	104.4	106.8	106.3	3.4	1.4	1.5
膏霜	β-熊果苷	40.0	200.0	800.0	108.5	105.8	104.9	2.6	1.7	0.4
	α-熊果苷	40.0	200.0	800.0	105.3	105.5	104.9	0.8	3.8	0.4
	氢醌	20.0	100.0	400.0	97.8	96.6	98.1	1.3	0.6	0.4
	烟酰胺	20.0	100.0	400.0	106.3	105.5	105.3	0.9	1.0	0.5
	苯酚	20.0	100.0	400.0	101.7	104.6	103.1	1.6	0.8	0.3
	脱氧熊果苷	20.0	100.0	400.0	99.3	106.8	105.9	1.8	1.4	0.5

目标物	样品	含量/%		相对偏差/%	目标物	样品	含量/%		相对偏差/%
目标物	样品	GB/T35954—2018	本法	相对偏差/%	目标物	样品	GB/T35954—2018	本法	相对偏差/%
β-熊果苷	样品1	0.076	0.077	1.3	烟酰胺	样品26	0.529	0.551	4.0
	样品2	0.753	0.769	2.1		样品27	0.545	0.553	1.4
	样品3	0.103	0.107	3.4		样品28	0.521	0.529	1.6
	样品4	0.101	0.106	4.6		样品29	0.516	0.530	2.7
	样品5	0.104	0.108	3.8		样品30	0.515	0.527	2.4
	样品6	3.293	3.316	0.7		样品31	0.456	0.466	2.3
	样品7	0.105	0.108	2.6		样品32	2.131	2.194	2.9
	样品8	3.195	3.262	2.1		样品33	2.178	2.194	0.7
	样品9	0.108	0.113	4.9		样品34	2.294	2.277	0.8
	样品10	0.103	0.109	4.8		样品35	2.198	2.284	3.8
	样品11	3.103	3.132	0.9		样品36	1.969	1.999	1.5
	样品12	0.101	0.106	5.1		样品37	0.100	0.104	4.5
	样品13	0.104	0.104	0.5		样品38	0.985	1.013	2.9
	样品14	0.094	0.099	4.8		样品39	1.033	1.031	0.2
	样品15	1.042	1.031	1.1		样品40	0.197	0.207	4.9
	样品16	0.032	0.034	5.4		样品41	0.301	0.294	2.3
	样品17	0.100	0.101	0.7		样品42	0.099	0.102	3.1
	样品18	0.105	0.102	3.0		样品43	2.114	2.205	4.3
	样品19	0.569	0.575	1.1		样品44	1.996	2.037	2.0
α-熊果苷	样品20	0.218	0.222	1.8		样品45	5.375	5.220	2.9
	样品21	0.209	0.217	3.6		样品46	0.102	0.104	2.3
	样品22	0.097	0.102	4.5		样品47	3.428	3.516	2.5
	样品23	0.505	0.513	1.4		样品48	0.147	0.155	5.3
	样品24	0.571	0.572	0.2		样品49	0.488	0.508	4.1
	样品25	0.045	0.047	4.3		样品50	4.041	4.125	2.0