无糖口香糖中味觉和香气成分的传递:质量平衡分析

IF 1 4区医学 Q4 Neuroscience

Chemosensory Perception Pub Date : 2016-12-09 DOI:10.1007/s12078-016-9218-y

Smita Raithore, Devin G. Peterson

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引用次数: 3

摘要

风味是影响食物选择的主要标准之一。为了让人们感受到味道，它需要从食物中释放出来。先前对风味释放机制的研究主要集中在与食物/成分的相互作用上，并分析了单一的风味形态(香气或味道)。缺乏全面的方法限制了我们对食物风味释放的认识。本研究的目的是通过对咀嚼口香糖过程中挥发性香气和非挥发性味道化合物进行质量平衡分析(呼出的空气、唾液和口香糖丸)，全面监测香味的释放。使用LC/MS/MS、GC/MS和常压化学电离-MS测定在12分钟咀嚼时间内唾液、口香糖丸和呼出气体(仅针对挥发物)中的挥发物(丁酸乙酯、苯甲醛、薄荷醇、薄荷酮和柠檬烯)和非挥发物(山梨糖醇、阿斯巴甜和乙酰磺胺K)的浓度。与非挥发性化合物相比，咀嚼过程中挥发性化合物的释放百分比较低。呼出气体中的香气释放特征与唾液或口香糖丸中的化合物浓度无关。结果表明，香气释放主要是由这些化合物在口腔和/或肺部的残留水平控制的。同样，在咀嚼的前4分钟，非挥发性物质的释放曲线也不依赖于浓度，这表明在咀嚼过程中，非挥发性物质在牙龈基部被物理包裹，然后在咀嚼过程中通过机械应力暴露于口腔提取时释放。基于质量平衡分析，我们支持了口香糖释放香味的两种主要机制:(1)口香糖丸表面积的更新;(2)口腔或肺部对香气化合物的吸收是香味释放的重要机制。我们的发现为风味传递机制提供了进一步的见解，并为研究食品的风味感知提供了改进的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Delivery of Taste and Aroma Components in Sugar-Free Chewing Gum: Mass Balance Analysis

查看原文本刊更多论文

Delivery of Taste and Aroma Components in Sugar-Free Chewing Gum: Mass Balance Analysis

Flavor is known as one of the main criteria that influences food choice. For flavor to be perceived, it needs to be released from the food. Prior studies on mechanisms that govern flavor release have largely focused on interactions with food/ingredients and have analyzed a single flavor modality (aroma or taste). The lack of comprehensive methods has limited our understanding of flavor release from food.

The aim of this study was to comprehensively monitor flavor release by conducting a mass balance analysis (exhaled air, saliva, and gum bolus) of both volatile aroma and non-volatile taste compounds during mastication of chewing gum.

Concentrations of volatiles (ethyl butyrate, benzaldehyde, menthol, menthone, and limonene) and non-volatiles compounds (sorbitol, aspartame, and acesulfame K) were determined over a 12-min mastication time period in expectorated saliva, gum bolus, and exhaled breath (only for volatiles) using LC/MS/MS, GC/MS, and atmospheric pressure chemical ionization-MS.

The percent release of the volatile compounds during mastication was lower when compared to the non-volatile compounds. The aroma release profile in the exhaled breath was not related to the compound concentration in the saliva or gum bolus. Results suggested the aroma release was primarily controlled by residual levels of these compounds in the oral cavity and/or the lungs. Similarly, the release profiles of the non-volatiles were not concentration dependent during the first 4 min of mastication, suggesting physical entrapment in the gum base and subsequent release when exposed to the oral cavity for extraction via mechanical stress during mastication.

Two main mechanisms of flavor delivery from chewing gum were supported based on a mass balance analysis: (1) the renewal of the gum bolus surface area and (2) the absorption of the aroma compounds in the oral cavity or lungs as an important mechanism of aroma release.

Our findings provide further insight into mechanisms of flavor delivery and an improved basis to investigate flavor perception of foodstuffs.

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来源期刊

Chemosensory Perception 农林科学-神经科学

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： Coverage in Chemosensory Perception includes animal work with implications for human phenomena and explores the following areas: Identification of chemicals producing sensory response; Identification of sensory response associated with chemicals; Human in vivo response to chemical stimuli; Human in vitro response to chemical stimuli; Neuroimaging of chemosensory function; Neurological processing of chemoreception; Chemoreception mechanisms; Psychophysics of chemoperception; Trigeminal function; Multisensory perception; Contextual effect on chemoperception; Behavioral response to chemical stimuli; Physiological factors affecting and contributing to chemoperception; Flavor and hedonics; Memory and chemoperception.