Search

Your search keyword '"FROMENTIN, GILLES"' showing total 275 results
Start Over Author "FROMENTIN, GILLES" Language english
275 results on '"FROMENTIN, GILLES"'

9. Compared with Raw Bovine Meat, Boiling but Not Grilling, Barbecuing, or Roasting Decreases Protein Digestibility without Any Major Consequences for Intestinal Mucosa in Rats, although the Daily Ingestion of Bovine Meat Induces Histologic Modifications in the Colon

Author

Oberli, Marion, Lan, Annaïg, Khodorova, Nadezda, Santé-Lhoutellier, Véronique, Walker, Francine, Piedcoq, Julien, Davila, Anne-Marie, Blachier, François, Tomé, Daniel, Fromentin, Gilles, and Gaudichon, Claire

Published
2016
Full Text
View/download PDF

17. Lipo‐Protein Emulsion Structure in the Diet Affects Protein Digestion Kinetics, Intestinal Mucosa Parameters and Microbiota Composition

Author

Oberli, Marion, Douard, Véronique, Beaumont, Martin, Jaoui, Daphné, Devime, Fabienne, Laurent, Sandy, Chaumontet, Catherine, Mat, Damien, Le Feunteun, Steven, Michon, Camille, Davila, Anne‐Marie, Fromentin, Gilles, Tomé, Daniel, Souchon, Isabelle, Leclerc, Marion, Gaudichon, Claire, and Blachier, François

Published
2018
Full Text
View/download PDF

27. The Calm Mouse: An Animal Model of Stress Reduction

Author

Gurfein, Blake T., Stamm, Andrew W., Bacchetti, Peter, Dallman, Mary F., Nadkarni, Nachiket A., Milush, Jeffrey M., Touma, Chadi, Palme, Rupert, Di Borgo, Charles Pozzo, Fromentin, Gilles, Lown-Hecht, Rachel, Konsman, Jan Pieter, Acree, Michael, Premenko-Lanier, Mary, Darcel, Nicolas, Hecht, Frederick M., and Nixon, Douglas F.

Published
2012
Full Text
View/download PDF

32. A high-fat diet attenuates the central response to within-meal satiation signals and modifies the receptor expression of vagal afferents in mice

Author

Nefti, Wahiba, Chaumontet, Catherine, Fromentin, Gilles, Tome, Daniel, and Darcel, Nicolas

Subjects
Cholecystokinin -- Physiological aspects, Cholecystokinin -- Research, Ketogenic diet -- Health aspects, Neural receptors -- Physiological aspects, Neural receptors -- Research, Neuroplasticity -- Research, Biological sciences
Abstract

During digestion, macronutrients are sensed within the small intestine. This sensory process is dependent upon the action of gut mediators, such as cholecystokinin (CCK) or serotonin (5-HT), on vagal afferents that, in turn, convey peripheral information to the brain to influence the control of food intake. Recent studies have suggested that dietary conditions alter vagal sensitivity to CCK and 5-HT. This phenomenon may be of importance to the onset of eating disorders. The aim of the present study was thus to investigate the effects of subjecting mice to 15 days of either an HF diet (30% fat, 54% carbohydrate) or an NF diet (10% fat, 74% carbohydrate) on 1) daily and short-term food intake, 2) vagal sensitivity to peripheral anorectic factors and macronutrient loads, and 3) vagal afferent neuron receptor expression. The results indicated that compared with an NF diet, and while increasing food intake and body weight gain, an HF diet altered the short-term response to CCK-8 and intragastric macronutrient loads, while decreasing vagal activation by CCK-8 and modifying the receptor expression of vagal neurons. These findings, therefore, suggest that dietary intervention effect on food intake could be linked to changes in vagal afferent receptor profiles. vagus nerve; neuronal plasticity; cholecystokinin; food intake

Published
2009

33. Yeast proteins enhance satiety in rats

Author

Faipoux, Rodolphe, Tome, Daniel, Bensaid, Ahmed, Morens, Celine, Oriol, Eric, Bonnano, Laurent Michel, and Fromentin, Gilles

Subjects
Rats as laboratory animals -- Research, Rats as laboratory animals -- Food and nutrition, Yeast -- Research, Yeast -- Nutritional aspects, Protein research, Food/cooking/nutrition
Abstract

This study was designed to characterize the suppressant effect of yeast protein and purified peptides on energy intake. For this purpose, 5 experiments were carried out using adult male Wistar rats. Rats that consumed ad libitum a standard yeast protein diet are significantly less and were leaner over 21 d than rats that consumed ad libitum a standard milk protein diet (Expt. 1). Moreover, rats fed a high yeast protein load reduced their next meal and daily energy intake more than rats fed any other well-balanced, amino acid, high protein load (soy, total milk protein, or wheat gluten} and more than those fed a wheat starch diet (Expt. 2). Purified peptides from the yeast protein extract produced similar effects on subsequent energy intake (Expt. 3). Study of the behavioral satiety sequence showed that rats consuming P14-y or P55-y diets ad libitum did not acquire a conditioned food aversion (Expt. 4). Finally, a preliminary study of gastric emptying in rats fed yeast protein loads showed that yeast protein was emptied more rapidly through the pylorus than total milk protein during a meal, which may induce satiety (Expt. 5). Taken together, these experiments show that yeast proteins enhance satiety in rats more than other proteins.

Published
2006

34. A high-protein, high-fat, carbohydrate-free diet reduces energy intake, hepatic lipogenesis, and adiposity in rats

Author

Pichon, Lisa, Huneau, Jean-Francois, Fromentin, Gilles, and Tome, Daniel

Subjects
Lipoprotein lipase -- Physiological aspects, Food/cooking/nutrition
Abstract

The aim of this work was to determine the effects in rats of ingesting 1 of 3 diets with normal or high protein concentrations and various carbohydrate:lipid ratios on weight gain, body composition, and the development and metabolism of white adipose tissue (WAT). For this purpose, male Wistar rats were fed for 20 or 42 d a high- carbohydrate, low-fat, normal-protein diet (76, 10, and 14% of energy as carbohydrate, lipid, and protein, respectively, carbohydrate:lipid ratio (C/L) = 7.6), a normal-carbohydrate, low-fat, high-protein diet (35, 10, and 55% of energy as carbohydrate, lipid, and protein respectively, C:L = 3.5), or a carbohydrate-free, high-fat, high-protein diet (45 and 55% of energy as fat and protein, respectively, C:L = 0). Growth, food intake, body composition, WAT cellularity, and several markers of lipogenesis including fatty acid synthase and lipoprotein lipase activities were measured in adipose tissue and liver. Lowering the C:L ratio reduced the development of WAT, weight gain, body fat mass, and adipocyte size, and in rats fed the carbohydrate-free diet (C:L = 0), the total number of adipocytes in subcutaneous WAT. These reductions in adipose tissue development with decreases in the C:L ratio of the diet seemed to be due primarily to reduced hepatic lipogenesis. KEY WORDS: * adipocytes * body composition * fatty acidsynthase * lipoprotein lipase * carbohydrate-free diet

Published
2006

35. Fos-positive neurons are increased in the nucleus of the solitary tract and decreased in the ventromedial hypothalamus and amygdala by a high-protein diet in rats

Author

Darcel, Nicolas, Fromentin, Gilles, Raybould, Helen E., Gougis, Sylvette, Gietzen, Dorothy W., and Tome, Daniel

Subjects
Vagus nerve -- Research, Rats as laboratory animals -- Research, Proteins in human nutrition -- Health aspects, Proteins in human nutrition -- Research, Food/cooking/nutrition
Abstract

Transition from a normal- (NP) to a high-protein (HP) diet induces a rapid depression in food intake and a progressive but incomplete return to the initial intake during the succeeding days. The aim of this study was to determine which CNS regions are involved in the HP diet-induced satiety in rats. Brains were collected from 3 groups of adult rats after habituation to an NP diet (21 d), during the transition phase to a HP diet (2 d), or after habituation to the HP diet (21 d). Fos expression was measured in several brain areas that are involved in the control of food intake (solitary tract nucleus, anterior piriform cortex, lateral hypothalamus, arcuate nucleus, posterior para ventricular nucleus, medio ventral hypothalamus, dorso medial hypothalamus, amygdala, and accumbens nucleus). Changes occurred in the majority of these regions during the transition period from the NP diet to the HP diet. After habituation to the HP diet, significant changes in Fos expression were restricted to an increase in the nucleus of the solitary tract and a decrease in the ventromedial hypothalamus and the cortex of the amygdala. Considering the functional characteristics of these areas, the present results suggest that the vagus nerve conveys the information relative to the quantity of protein ingested, that hypothalamic sites regulate food intake and may alter sympathetic nervous system activity, and that higher brain functions such as memory processing by the limbic system or food reward system are involved in the HP diet-induced satiety in rats. KEY WORDS: * brain * vagus nerve * satiety * protein

Published
2005

36. Increasing the protein content in a carbohydrate-free diet enhances fat loss during 35% but not 75% energy restriction in rats

Author

Marsset-Baglieri, Agnes, Fromentin, Gilles, Tome, Daniel, Bensaid, Ahmed, Makkarios, Lina, and Even, Patrick C.

Subjects
Proteins -- Research, Food/cooking/nutrition
Abstract

The purpose of the present study was to test the influence of the amount of protein in a carbohydrate-free diet during a weight reducing program using severe (75%) or more moderate (35%) energy restriction in rats. In Expt. 1, 3 groups (n = 6) consumed ad libitum a high-carbohydrate, low-fat diet [P21C69L10 containing 21% of energy as protein (P21), 69% carbohydrate (C69) and 10% lipids (L10)], a high-carbohydrate, high-fat diet (P21C34L45), or a carbohydrate-free, high-fat, high-protein diet (P55L45). In Expt. 2, 7 groups (n = 7) were studied. For 20 d, groups 1-4 consumed ad libitum diets containing macronutrients at the proportions indicated in their designations [P14C56L30 (control diet), P30L70, P50L50, and P90L10]. Groups 5-7 were pair-fed the same diets at the level of the spontaneous intake of the P90L10 group on the previous day (35% energy restriction). In Expt. 3, 5 groups (n = 7) were fed 1 of the following diets for 20 d. Group 1 consumed the control diet (P14C56L30) ad libitum. Groups 2-5 were energy restricted to 25% of the daily energy intake of group 1 with diets varying in their protein and lipid concentrations (P14C56L30, P50L50, P70L30, and P90L10). A high-fat content in the diet devoid of carbohydrate did not increase energy intake and body adiposity and neither body weight nor body composition was significantly affected by the protein to lipid ratio when energy restriction was 75%; however, a protein content > 50% preserved lean body mass at the expense of fat mass when energy restriction was 35%. Our results show that the absence of carbohydrates from the diet induces a low energy intake and the preferential deposition of protein. KEY WORDS: * obesity * body composition * high-protein carbohydrate-free diet * high-fat diet * rats

Published
2004

37. A very high 70%-protein diet does not induce conditioned taste aversion in rats

Author

L'Heureux-Bouron, Diane, Tome, Daniel, Bensaid, Ahmed, Morens, Celine, Gaudichon, Claire, and Fromentin, Gilles

Subjects
High-protein diet -- Research, Taste -- Research, Food/cooking/nutrition
Abstract

This study was designed to assess the effects of transition and adaptation to a very high protein diet on behavioral food responses, energy intake, body weight gain, and body composition in rats. For this purpose, adult male Wistar rats were fed either a diet with 70% of energy as protein (P70 group) or a diet with 14% of energy as protein (P14 group) for 16 d. These two groups were compared with a P14 pair-fed (P14-pf) group. A behavioral satiety sequence was also examined. The P70 group are 21% less than the P14 rats (P < 0.001) and gained less body weight (P < 0.01). The P70 group gained more carcass weight than either P14 or P14-pf rats (P < 0.05). Behavior and food intake data were affected in P70 rats on d 1 of eating the very high protein diet and then returned to baseline values as early as d 2 of consuming the P70 diet. Rats that adapted to the very high protein diet did not acquire a conditioned taste aversion but rather exhibited satiety and a normal behavioral satiety sequence. J. Nutr. 134: 1512-1515, 2004. KEY WORDS: * behavioral satiety sequence * conditioned taste aversion * satiety * palatability * high-protein diet

Published
2004

38. Rats free to select between pure protein and a fat-carbohydrate mix ingest high-protein mixed meals during the dark period and protein meals during the light period

Author

Makarios-Lahham, Lina, Roseau, Suzanne M., Fromentin, Gilles, Tome, Daniel, and Even, Patrick C.

Subjects
Food/cooking/nutrition
Abstract

Rats that are allowed to select their diets [dietary self- selection (DSS)] often ingest >30% of their daily energy in the form of protein. Such an intake may seem unhealthy, but the consistency of this choice suggests that it is motivated by physiologic drives. To gain a clearer understanding of how protein selection is structured during DSS, we adapted 12 rats to a standard diet (14% Protein) and then allowed them to choose between two diets, i.e., total milk protein (P) and a mix of carbohydrates and lipids (FC). The protein intake during DSS rose above 40%; assuming an intermeal interval of 10 min, 70% of the energy intake occurred with meals that included both P and FC, with the sequence of FC followed by P preferred to the sequence of P followed by FC (70 vs. 30%, P < 0.001). In addition, energy intake during the light period was reduced to only 10% of the daily energy intake [vs. 30% with the control P14 diet or a with a high-protein diet (50%)], and 90% of the intake was in the form of pure protein meals, in complementary studies, we verified that the high protein intake also occurred when rats were offered casein and whey and was not due to the high palatability of the milk protein. We conclude that a specific feeding pattern accompanies high protein intake in rats allowed DSS. The mechanisms underlying this behavior and its potential beneficial/adverse consequences over the long term still must be clarified. KEY WORDS: * meal pattern * energy intake * dietary self-selection * protein to energy ratio

Published
2004

40. Total subdiaphragmatic vagotomy does not suppress high protein diet-induced food intake depression in rats

Author

L'Heureux-Bouron, Diane, Tome, Daniel, Rampin, Olivier, Even, Patrick C., Larue-Achagiotis, Christiane, and Fromentin, Gilles

Subjects
Vagus nerve, Food/cooking/nutrition
Abstract

This study was undertaken to determine whether the subdiaphragmatic vagus nerve is involved in the depression of food intake induced by the ingestion of a high protein diet (P50) in rats. After total subdiaphragmatic vagotomy (Vago group) or sham surgery (Sham group), rats consumed the control diet for a 2-wk recovery period and then both groups consumed the high protein diet for 16 d. Daily food intake, meal pattern analysis and behavioral satiety sequence were measured. Total subdiaphragmatic vagotomy did not modify the daily intake of the control diet or suppress the dramatic depression in food intake produced by acute transition to a high protein diet. However, the daily intake of a high protein diet was slightly reduced under acute conditions or even after adaptation (P < 0.005). Analysis of meal parameters and the behavioral satiety sequence after adaptation indicated no major metabolic distress. In conclusion, these results suggest that the subdiaphragmatic vagus nerve does not constitute an obligatery pathway for the transfer of information to the brain, resulting in a depression of high protein diet intake. In contrast, a defect in this visceral regulating system could reinforce the metabolic-associated food intake depression signal. KEY WORDS: * meal pattern * behavior satiety sequence * satiety * vagotomy * vagus nerve

Published
2003

47. Assimilation of a surprising flavor stimulus to an expected one decoded by MVPA

Author

Rodriguez-Izquierdo, A., Davidenko, Olga, Claise, Béatrice, Benmoussa, Abdlatif, Fromentin, Gilles, Tomé, Daniel, Nadkarni, Nachiket A, Darcel, Nicolas, Bonny, J.-M., Physiologie de la Nutrition et du Comportement Alimentaire (PNCA), Institut National de la Recherche Agronomique (INRA)-AgroParisTech, CHU Clermont-Ferrand, Qualité des Produits Animaux (QuaPA), and Institut National de la Recherche Agronomique (INRA)

Subjects
[SDV]Life Sciences [q-bio], [SDV.IDA]Life Sciences [q-bio]/Food engineering, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2019

48. Effect of providing choice on processing of sweet drinks in the brain

Author

Davidenko, Olga, Clerjon, S., Higgs, Suzanne, Darcel, Nicolas, Fromentin, Gilles, Gaudichon, Claire, Claise, Béatrice, Bonny, J.-M., Physiologie de la Nutrition et du Comportement Alimentaire (PNCA), Institut National de la Recherche Agronomique (INRA)-AgroParisTech, Qualité des Produits Animaux (QuaPA), Institut National de la Recherche Agronomique (INRA), CHU Clermont-Ferrand, and Organization for Human Brain Mapping.

Subjects
[SDV]Life Sciences [q-bio], [SDV.IDA]Life Sciences [q-bio]/Food engineering, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2019

Catalog

Books, media, physical & digital resources
See catalog results