Intake of fat and carbohydrate: role of energy density

In this review, we consider two hypotheses which could explain why high-fat foods are overeaten. The first hypothesis is that fat is overeaten because it affects satiety and satiation less than carbohydrate. In several studies which have evaluated the effects of fat on satiety and satiation, fat dif...

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Veröffentlicht in:	European journal of clinical nutrition 1999-04, Vol.53 Suppl 1 (S1), p.S166-s173
Hauptverfasser:	Rolls, B J, Bell, E A
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Sprache:	eng
Schlagworte:	Behavior Carbohydrates Cognitive ability Diet Dietary Carbohydrates - analysis Dietary Carbohydrates - metabolism Dietary Fats - analysis Dietary Fats - metabolism Energy Energy intake Energy Intake - physiology Energy Metabolism - physiology Feeding Behavior - physiology Flux density Food Food intake Humans Hypotheses Nutritive Value Oils & fats Palatability Satiation - physiology Satiety
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creator	Rolls, B J Bell, E A
description	In this review, we consider two hypotheses which could explain why high-fat foods are overeaten. The first hypothesis is that fat is overeaten because it affects satiety and satiation less than carbohydrate. In several studies which have evaluated the effects of fat on satiety and satiation, fat differed little from carbohydrate when both the palatability and energy density of the test foods were matched. Therefore it is unlikely that the effects of fat on satiety or satiation provide the primary explanation for why it is overeaten. The second hypothesis is that the high energy density of fat facilitates its overconsumption. Support for this view comes from recent studies in which energy density significantly influenced intake when both the macronutrient content and palatability of the test foods were matched. For example, when individuals were fed diets varying in energy density and could eat as much food as they liked, they ate the same amount of food (by weight) so energy intake varied directly with energy density. Furthermore, when participants consumed foods of low energy density, they felt satisfied, despite reductions in energy intake. These findings show that energy density is a key determinant of energy intake in that cognitive, behavioral, and sensory cues related to the volume or weight of food consumed can interact with or override physiological cues associated with food intake.
doi_str_mv	10.1038/sj.ejcn.1600757
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The first hypothesis is that fat is overeaten because it affects satiety and satiation less than carbohydrate. In several studies which have evaluated the effects of fat on satiety and satiation, fat differed little from carbohydrate when both the palatability and energy density of the test foods were matched. Therefore it is unlikely that the effects of fat on satiety or satiation provide the primary explanation for why it is overeaten. The second hypothesis is that the high energy density of fat facilitates its overconsumption. Support for this view comes from recent studies in which energy density significantly influenced intake when both the macronutrient content and palatability of the test foods were matched. For example, when individuals were fed diets varying in energy density and could eat as much food as they liked, they ate the same amount of food (by weight) so energy intake varied directly with energy density. 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Furthermore, when participants consumed foods of low energy density, they felt satisfied, despite reductions in energy intake. These findings show that energy density is a key determinant of energy intake in that cognitive, behavioral, and sensory cues related to the volume or weight of food consumed can interact with or override physiological cues associated with food intake.</abstract><cop>England</cop><pub>Nature Publishing Group</pub><pmid>10365994</pmid><doi>10.1038/sj.ejcn.1600757</doi><oa>free_for_read</oa></addata></record>
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subjects	Behavior Carbohydrates Cognitive ability Diet Dietary Carbohydrates - analysis Dietary Carbohydrates - metabolism Dietary Fats - analysis Dietary Fats - metabolism Energy Energy intake Energy Intake - physiology Energy Metabolism - physiology Feeding Behavior - physiology Flux density Food Food intake Humans Hypotheses Nutritive Value Oils & fats Palatability Satiation - physiology Satiety
title	Intake of fat and carbohydrate: role of energy density
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