0000000000450916
AUTHOR
Lauriane Boisard
Relationships between sodium mobility, in-mouth salt and aroma release, and flavour perception : application to model cheeses
The aim of this work is to understand the effects of changes in the composition of model cheeses on mobility, release and perception of flavor molecules (salt, aroma compounds). Six flavoured model cheeses were formulated (3 lipid/protein (L/P) ratios and 2 salt contents). The microstructure and the rheological properties of the model cheeses were characterized respectively by confocal microscopy and by uniaxial compression test. The mobility of sodium ions was analyzed by 23Na NMR. The kinetics of sodium release was followed in water and then in saliva during consumption of the model cheeses. The retronasal release of aroma compounds was followed by nose-space APCI-MS, simultaneously with …
Strategies to enhance saltiness in food involving cross modal interactions
A series of results is reported on cross modal odour-taste interactions as a mean to enhance salty taste in food. Salt-related odours can enhance salty taste in water solutions containing a low level of sodium chloride through odour-induced changes in taste perception. Odour-induced saltiness perception enhancement (OISE) depends on salt concentration (intensity). OISE was also found effective in low-salt content solid model cheese, but texture dependant. A significant saltiness perception enhancement induced by Comté cheese and sardine odours was observed for softer textures only. In ternary odour-sour-salty solutions, sourness enhances saltiness perception additively with salt-related odo…
Libération du sodium et des composés d'arôme dans des modèles fromagers aromatisés : influence de la structure et de la composition
Authorities have called for salt content to be reduced in various food products. Cheese appears to be one of the most targeted products. In order to understand how to reduce salt content in model cheeses without modifying salty perception, the interactions between in-mouth sodium release and cheese composition and structure have to be studied. . The current study was conducted to determine how the release of aroma compounds and sodium ions could be modified by the structure and the composition of model cheese (lipid/protein ratio, sodium content ...). This will be done by in vivo and in vitro approaches. 23Na Nuclear Magnetic Resonance (NMR) spectroscopy was used to study the mobility and t…
Mobilité du sel dans des modèles fromagers
National audience; Reducing salt content without affecting acceptability is a main challenge of food industries. One way could be to increase the mobility of sodium ions in food matrix and their release during consumption. This study consists in a multimodal approach to understand the effect of changes in composition of model cheeses on the mobility of salt (NaCl). Six flavoured model cheeses have been formulated (three lipid/protein ratios, two NaCl contents) and their microstructures were characterised by confocal laser scanning microscopy. At molecular level, sodium mobility in model cheeses was analysed by 23Na Nuclear Magnetic Resonance (NMR) spectroscopy. At macroscopic level, sodium …
Dynamics of aroma release during cheese consumption: influence of the physiological state
International audience
Salt and fat contents in model cheeses influence the release of sodium ions and aroma compounds
The health authorities recommend a reduction in salt (NaCl) and fat contents of foodstuff. But reducing such components without affecting acceptability is a major challenge, particularly because of the interactions with other ingredients, such as aroma compounds. One way could be to increase the mobility of both sodium ions and aroma compounds in food matrix and their release during consumption. This study consists in a multimodal approach to understand the effect of changes in composition of model cheeses on the mobility and release of flavour molecules (NaCl, aroma compounds). Six flavoured model cheeses have been formulated (three fat/protein contents, two NaCl contents). The rheological…
Salt and fat contents influence the microstructure of model cheeses, chewing/swallowing andin vivoaroma release
The effects of the lipid/protein ratio (20/28, 24/24, 28/20) and salt content of model cheeses were investigated simultaneously with respect to chewing behaviour, swallowing events and in vivo aroma release. Chewing parameters were measured by electromyography. Swallowing events were recorded manually. In vivo aroma release was investigated using nose-space on-line atmospheric pressure chemical ionisation-mass spectrometry. The values for chewing activity and time before swallowing were higher with lower lipid/protein ratios and lower salt contents, due to the greater mechanical resistance of the model cheeses. The corresponding microstructure was made up of smaller and more circular fat dr…
Influence of formulation of model cheeses on salty perception and liking
International audience
Structure and composition of model cheeses influence sodium NMR mobility, kinetics of sodium release and sodium partition coefficients
International audience; The mobility and release of sodium ions were assessed in model cheeses with three different lipid/protein ratios, with or without added NaCl. The rheological properties of the cheeses were analysed using uniaxial compression tests. Microstructure was characterised by confocal laser scanning microscopy. (23)Na nuclear magnetic resonance (NMR) spectroscopy was used to study the molecular mobility of sodium ions in model cheeses through measurements of the relaxation and creation times. Greater mobility was observed in cheeses containing a lower protein content and with added NaCl. The kinetics of sodium release from the cheese to an aqueous phase was correlated with th…
Changes in salt or fat contents of model cheese modify in vivo aroma release and eating
National audience
FP6: Changes in salt or fat contents of model cheeses modify in vivo aroma release and eating
National audience; Health authorities recommend food industries to reduce salt and fat in food products. But reducing such. components in food is a main challenge, particularly because of the interactions with other ingredients,. such as aroma compounds. Indeed, a change in salt or fat content can lead to a change in texture and. structure which can affect food oral processing, aroma release1 and thus perception. The aim of this. project was to study the consequences of a change in salt (NaCl) or fat contents on the aroma release. during eating (chewing behaviour, swallowing). Therefore, six model cheeses have been formulated. (three lipid/protein ratios, with and without salt added). They …
Dynamics of Aroma Release during Cheese Consumption
The influence of satiation before and after a pasta meal was studied through the evaluation of aroma release and chewing activity during the consumption of a flavored model cheese. Aroma release during cheese consumption was found to be higher after satiation than before. The difference can be explained by an increase in the duration of the chewing sequence and an increase in the chewing muscular work after satiation. However, the pulmonary flow was not affected by satiation.
How does composition of model cheeses affect sodium and aroma release?
International audience
Sodium ions models cheeses at molecular and macroscopic levels
National audience; The excessive consumption of sodium is one of the causes of nutritional related-health problems. The reduction of salt content without affecting technological and sensorial properties of foodstuffs is currently a challenge for the food industry1. There is a need to develop tools to quantify the “active” sodium ions in food products at molecular and macroscopic levels to better understand in-mouth salt release and flavour perception. In this context, methods for the quantification of the bound fraction were developed: 23Na NMR single-quantum (SQ) and double-quantum-filtered (DQF) sequences at molecular level using Bruker Avance-500 spectrometer equipped with 10 mm probe 2,…
Sodium mobility measured by 23Na NMR explains sodium release in model cheeses
International audience
Salt release and perception in model cheeses are influenced by salt/fat contents, microstructure and salt mobility
Introduction and objectivesThe health authorities recommend a reduction in salt (NaCl) and fat contents of foodstuff. Reducing such components without affecting acceptability is a major challenge, particularly because of the interactions with other ingredients such as aroma compounds. This study consisted in a multimodal approach to understand the effect of changes in composition of model cheeses on the mobility and release of sodium chloride, masticatory behaviour and saltiness perception.MethodologySix model cheeses have been formulated (three fat/protein contents, two NaCl contents). The rheological properties were analysed using uniaxial compression tests. Microstructure and homogeneity…
Aroma and salt release and perception in model cheeses are explained by salt/fat contents, microstructure, salt mobility and oral processing
The health authorities recommend a reduction in salt (NaCl) and fat contents of foodstuff. Reducing such components without affecting acceptability is a major challenge, particularly because of the interactions with other ingredients such as aroma compounds. This study consisted in a multimodal approach to understand the effect of changes in composition of model cheeses on the mobility and release of flavour molecules (NaCl, aroma compounds), masticatory behaviour and flavour perception. Six flavoured model cheeses have been formulated (three fat/protein contents, two NaCl contents). The rheological properties were analysed using uniaxial compression tests. Microstructure and homogeneity we…
The salt and lipid composition of model cheeses modifies in-mouth flavour release and perception related to the free sodium ion content.
Reducing salt and lipid levels in foodstuffs without any effect on acceptability is a major challenge, particularly because of their interactions with other ingredients. This study used a multimodal approach to understand the effects of changes to the composition of model cheeses (20/28, 24/24, 28/20 lipid/protein ratios, 0% and 1% added NaCl) on sodium ion mobility ((23)Na NMR), in-mouth sodium release and flavour perception. An increase in the salt content decreased cheese firmness and perceived hardness, and increased sodium ion mobility, in vivo sodium release and both saltiness and aroma perception. With the same amount of salt, a lower lipid/protein ratio increased the firmness of the…
Dynamics of aroma release during cheese consumption: influence of the physiological state
Studies dealing with food intake usually focus either on in vivo aroma release or on subject physiology and behaviour. However, no approach combining all the parameters is known and the effect of changes in the physiological state (for instance satiation state) has been slightly studied until now. Yet, the evolution of aroma perception during food intake is important because it can modify the consumption behaviour, in particular when the subject is satiated. The objective of this project is to study the dynamics of the evolution of aroma release from model cheese, according to physiological modifications such as satiation attainment. . The present study is a preliminary test led on a small …
Structure and composition of flavoured model cheeses impact on sodium and aroma release
Présentation d'un diaporama ; https://colloque4.inra.fr/biopolymeres2010; Health authorities have called for a reduction of salt quantity in various foodstuffs. Cheese is one of the most targeted products because of its high sodium content. In order to understand how to reduce salt in cheeses without modifying salty perception, the interactions between cheese structure and in-mouth sodium release have to be studied. In this way, model cheeses have been selected due to their great variability of formulation. The current study was conducted to determine how the release of sodium ions and aroma compounds could be modified by structure and composition of model cheeses (lipid/protein ratio, sodi…
Relationships between sodium mobility, in-mouth salt and aroma release, and flavour perception : application to model cheeses
The aim of this work is to understand the effects of changes in the composition of model cheeses on mobility, release and perception of flavor molecules (salt, aroma compounds). Six flavoured model cheeses were formulated (3 lipid/protein (L/P) ratios and 2 salt contents). The microstructure and the rheological properties of the model cheeses were characterized respectively by confocal microscopy and by uniaxial compression test. The mobility of sodium ions was analyzed by 23Na NMR. The kinetics of sodium release was followed in water and then in saliva during consumption of the model cheeses. The retronasal release of aroma compounds was followed by nose-space APCI-MS, simultaneously with …