Annika Hansson scite author profile

The course of events from taking a food into the mouth to the perception of the food's flavor involves many steps, from dilution with saliva, mastication, and transportation of the compounds to the olfactory epithelium to transformation into signals that go to the brain. In addition, there are also the effects of the food's structure and properties. In this study, a proton-transfer-reaction mass spectrometer (PTR-MS) was used to investigate how four pectin-containing systems with different structures and strengths affected the release of aroma compounds in a model mouth and in the nose of an assessor. Both the model mouth and the in-nose measurements showed that the strength and structure of pectin-containing systems are important with regard to the quantity of aroma compounds that are released. Mastication and saliva were also shown to have a large influence on how much of the aroma compound is released from the mouth to the nose.

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Multivariate Analysis of the Influence of Pectin, White Syrup, and Citric Acid on Aroma Concentration in the Headspace above Pectin Gels

Hansson

Leufvén

Pehrson

et al. 2002

J. Agric. Food Chem.

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Pectin gels consist of polysaccharide networks surrounded by water. The gel networks can prevent release of aroma molecules from the gel to the gas phase above. In this study static headspace measurements were performed to correlate aroma concentration in the gas phase above pectin gels to different amounts of the gel ingredients. As a consequence, aroma concentration in the headspace in relation to gel texture, as characterized by rheology measurements, was also studied. Aroma concentration in the headspace above strong gels was low, due to entrapment of aroma molecules within the gel structure. Viscous solutions generally gave a high aroma concentration in the headspace, but owing to a complex matrix, this was lowered when large amounts of the gel ingredients were added. However, a high correlation between interaction terms and square terms of design variables and rheology parameters with aroma compounds indicated nonlinear and complex relationships.

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Effect of changes in pH on the release of flavour compounds from a soft drink-related model system

Hansson

Andersson²,

Leufvén

et al. 2001

Food Chemistry

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Annika Hansson

The effect of sugars and pectin on flavour release from a soft drink-related model system

The Influence of Gel Strength on Aroma Release from Pectin Gels in a Model Mouth and in Vivo, Monitored with Proton-Transfer-Reaction Mass Spectrometry

Multivariate Analysis of the Influence of Pectin, White Syrup, and Citric Acid on Aroma Concentration in the Headspace above Pectin Gels

Effect of changes in pH on the release of flavour compounds from a soft drink-related model system

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