Gaëlle Arvisenet scite author profile

In food matrices, where starch is often used as a gelling or texturing agent, the occurrence of amylose-aroma complexes and their effect on the release of aroma compounds are difficult to determine. Indeed, thick or gelled systems are known to reduce the diffusion rate of flavor molecules, resulting in an increase of retention. Moreover, interactions between aroma compounds and matrix components might increase the retention of aroma compounds. The complexing behavior of three aroma compounds with amylose was studied by DSC and X-ray diffraction to determine the relative importance of these two factors. Their interaction properties were different: two of them formed complexes, and the third did not. These aroma compounds were added in food matrices containing different starches that induced different textures. Their retention was studied by static headspace analysis. The retention of aroma compounds appeared to depend on the amylose/amylopectin ratio of starch, both from the formation of complexes and by a viscosity effect.

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Relationship between texture and pectin composition of two apple cultivars during storage

Billy

Mehinagic²,

Royer³

et al. 2008

Postharvest Biology and Technology

125

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Optimisation of HS-SPME to study representativeness of partially baked bread odorant extracts

Poinot

Grua‐Priol

Arvisenet

et al. 2007

Food Research International

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How can aroma–related cross–modal interactions be analysed? A review of current methodologies

Poinot

Arvisenet

Ledauphin

et al. 2013

Food Quality and Preference

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a b s t r a c tUnderstanding the mechanisms involved in the perception of food aroma is one of the major objectives of flavour studies. Yet, it remains difficult to explain this perception due to the diversity of cross-modal interactions that occur between aroma, taste and texture during food consumption. Various sensory and instrumental methods have been developed to describe such interactions and to highlight their origins. Each of them has its own advantages and drawbacks. This paper describes the methods used over the past decade in order to help researchers choose the right approach to study aroma-related interactions. Their objectives, weaknesses and strengths are reported and contrasted. Their ability to reveal interactions in model and real food matrices is also discussed. Finally, innovative original approaches are presented.

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Influence of formulation and process on the aromatic profile and physical characteristics of bread

Poinot

Arvisenet

Grua‐Priol

et al. 2008

Journal of Cereal Science

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Retention of Aroma Compounds in Starch Matrices: Competitions between Aroma Compounds toward Amylose and Amylopectin

Arvisenet

Voilley

Cayot

2002

J. Agric. Food Chem.

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The retention of three aroma compounds-isoamyl acetate, ethyl hexanoate, and linalool--from starch-containing model food matrices was measured by headspace analysis, under equilibrium conditions. We studied systems containing standard or waxy corn starch with one or two aroma compounds. The three studied aroma compounds interact differently: ethyl hexanoate and linalool form complexes with amylose, and isoamyl acetate cannot. However, in systems containing one aroma compound, we observed with both starches a significant retention of the three molecules. These results indicate that amylopectin could play a role in the retention of aroma. In systems containing two aroma compounds in a blend, the retentions measured for isoamyl acetate and for linalool were either equal to or less than those in systems where they were added alone. This phenomenon was attributed to competition between aroma compounds to bind with starch. The retention of aroma compounds blended in starch-based systems gave us additional information which confirmed that interactions occur not only with amylose but also with amylopectin.

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French consumers know the benefits of pulses, but do not choose them: An exploratory study combining indirect and direct approaches

et al. 2019

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Influence of inulin on bread: Kinetics and physico-chemical indicators of the formation of volatile compounds during baking

et al. 2010

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