Bartsch Jennifer, Uhde Erik, Salthammer Tunga
Department of Material Analysis and Indoor Chemistry, Fraunhofer WKI, Braunschweig, Germany.
Department of Material Analysis and Indoor Chemistry, Fraunhofer WKI, Braunschweig, Germany.
Anal Chim Acta. 2016 Jan 21;904:98-106. doi: 10.1016/j.aca.2015.11.031. Epub 2015 Nov 27.
Scented consumer products are being bought in increasing amounts and gaining more popularity. There is, however, relatively little information available about their ingredients, emissions and allergenic potential. Frequently, a mixture of different fragrance substances and not solely an individual substance contributes to the overall desired smell. The aim of this study was to investigate the odorous volatile organic compounds (OVOCs) in consumer products containing fragrances. Over 44 products were selected: various scented candles, printing products with different scent types and other products types particularly meant to be used indoors. Measurements were carried out in a desiccator. Air samples were collected on thermal desorption tubes to determine the released fragrance substances by means of gas chromatography-mass spectrometry (GC-MS). Moreover, gas chromatography-olfactometry (GC-O) was used to obtain sensory data and to ensure no important odorant was overlooked. Using both methods it was possible to distinguish between odour active and inactive compounds and subsequently to identify almost 300 different odorants across all scented products. Besides the advantage of differentiation, as the human nose is a very sensitive detector, GC-O was found to be a useful tool for detecting traces and chosen target compounds. One focus in this study lay on the 26 EU-regulated fragrance allergens to prove their relevance in scented consumer goods. In total, 18 of them were identified, with at least one substance being present in almost every product. Benzyl alcohol, cinnamaldehyde, citronellol, eugenol, linalool and limonene were the prevalently detected allergens. Particularly linalool and limonene were observed in over 50% of the products. In addition, eugenol appeared to be one of the most frequently detected compounds in trace-level concentrations in the candle emissions.
香味消费品的购买量日益增加,且越来越受欢迎。然而,关于其成分、排放和过敏潜力的信息相对较少。通常,是不同香料物质的混合物而非单一物质构成了整体所需的气味。本研究的目的是调查含香料消费品中的挥发性有机气味化合物(OVOCs)。挑选了44种以上的产品:各种香薰蜡烛、具有不同香味类型的印刷产品以及其他特别用于室内的产品类型。测量在干燥器中进行。空气样品采集在热脱附管上,通过气相色谱 - 质谱联用仪(GC - MS)测定释放的香料物质。此外,气相色谱 - 嗅觉测量法(GC - O)用于获取感官数据,以确保没有重要的气味剂被忽视。使用这两种方法能够区分气味活性和非活性化合物,随后在所有香薰产品中识别出近300种不同的气味剂。除了具有区分的优势外,由于人的鼻子是非常灵敏的探测器,GC - O被发现是检测痕量和选定目标化合物的有用工具。本研究的一个重点是26种欧盟规定的香料过敏原,以证明它们在香味消费品中的相关性。总共鉴定出其中18种,几乎每种产品中都至少含有一种物质。苯甲醇、肉桂醛、香茅醇、丁香酚、芳樟醇和柠檬烯是普遍检测到的过敏原。特别是芳樟醇和柠檬烯在超过50%的产品中被检测到。此外,丁香酚似乎是蜡烛排放物中痕量浓度下最常检测到的化合物之一。
