Testing protein leverage in lean humans: a randomised controlled experimental study

A significant contributor to the rising rates of human obesity is an increase in energy intake. The 'protein leverage hypothesis' proposes that a dominant appetite for protein in conjunction with a decline in the ratio of protein to fat and carbohydrate in the diet drives excess energy int...

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Veröffentlicht in:	PloS one 2011-10, Vol.6 (10), p.e25929-e25929
Hauptverfasser:	Gosby, Alison K, Conigrave, Arthur D, Lau, Namson S, Iglesias, Miguel A, Hall, Rosemary M, Jebb, Susan A, Brand-Miller, Jennie, Caterson, Ian D, Raubenheimer, David, Simpson, Stephen J
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Schlagworte:	Adolescent Adult Advertising executives Appetite Biology Body weight gain Carbohydrates Diet Dietary Carbohydrates - metabolism Dietary Fiber - metabolism Dietary Proteins - metabolism Dilution Drosophila Energy Energy intake Energy measurement Energy Metabolism Exercise Female Flavors Food Food availability Food composition Food intake Food production Geometry Humans Hunger Insects Leverage Male Meals Medical research Medicine Metabolism Middle Aged Nutrition research Obesity Oils & fats Palatability Physical fitness Population studies Protein composition Proteins Regulation Sensory properties Social and Behavioral Sciences Sodium Chloride - metabolism Studies Thinness - metabolism Urea Young Adult
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description	A significant contributor to the rising rates of human obesity is an increase in energy intake. The 'protein leverage hypothesis' proposes that a dominant appetite for protein in conjunction with a decline in the ratio of protein to fat and carbohydrate in the diet drives excess energy intake and could therefore promote the development of obesity. Our aim was to test the 'protein leverage hypothesis' in lean humans by disguising the macronutrient composition of foods offered to subjects under ad libitum feeding conditions. Energy intakes and hunger ratings were measured for 22 lean subjects studied over three 4-day periods of in-house dietary manipulation. Subjects were restricted to fixed menus in random order comprising 28 foods designed to be similar in palatability, availability, variety and sensory quality and providing 10%, 15% or 25% energy as protein. Nutrient and energy intake was calculated as the product of the amount of each food eaten and its composition. Lowering the percent protein of the diet from 15% to 10% resulted in higher (+12±4.5%, p = 0.02) total energy intake, predominantly from savoury-flavoured foods available between meals. This increased energy intake was not sufficient to maintain protein intake constant, indicating that protein leverage is incomplete. Urinary urea on the 10% and 15% protein diets did not differ statistically, nor did they differ from habitual values prior to the study. In contrast, increasing protein from 15% to 25% did not alter energy intake. On the fourth day of the trial, however, there was a greater increase in the hunger score between 1-2 h after the 10% protein breakfast versus the 25% protein breakfast (1.6±0.4 vs 25%: 0.5±0.3, p = 0.005). In our study population a change in the nutritional environment that dilutes dietary protein with carbohydrate and fat promotes overconsumption, enhancing the risk for potential weight gain.
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The 'protein leverage hypothesis' proposes that a dominant appetite for protein in conjunction with a decline in the ratio of protein to fat and carbohydrate in the diet drives excess energy intake and could therefore promote the development of obesity. Our aim was to test the 'protein leverage hypothesis' in lean humans by disguising the macronutrient composition of foods offered to subjects under ad libitum feeding conditions. Energy intakes and hunger ratings were measured for 22 lean subjects studied over three 4-day periods of in-house dietary manipulation. Subjects were restricted to fixed menus in random order comprising 28 foods designed to be similar in palatability, availability, variety and sensory quality and providing 10%, 15% or 25% energy as protein. Nutrient and energy intake was calculated as the product of the amount of each food eaten and its composition. Lowering the percent protein of the diet from 15% to 10% resulted in higher (+12±4.5%, p = 0.02) total energy intake, predominantly from savoury-flavoured foods available between meals. This increased energy intake was not sufficient to maintain protein intake constant, indicating that protein leverage is incomplete. Urinary urea on the 10% and 15% protein diets did not differ statistically, nor did they differ from habitual values prior to the study. In contrast, increasing protein from 15% to 25% did not alter energy intake. On the fourth day of the trial, however, there was a greater increase in the hunger score between 1-2 h after the 10% protein breakfast versus the 25% protein breakfast (1.6±0.4 vs 25%: 0.5±0.3, p = 0.005). In our study population a change in the nutritional environment that dilutes dietary protein with carbohydrate and fat promotes overconsumption, enhancing the risk for potential weight gain.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>22022472</pmid><doi>10.1371/journal.pone.0025929</doi><oa>free_for_read</oa></addata></record>
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subjects	Adolescent Adult Advertising executives Appetite Biology Body weight gain Carbohydrates Diet Dietary Carbohydrates - metabolism Dietary Fiber - metabolism Dietary Proteins - metabolism Dilution Drosophila Energy Energy intake Energy measurement Energy Metabolism Exercise Female Flavors Food Food availability Food composition Food intake Food production Geometry Humans Hunger Insects Leverage Male Meals Medical research Medicine Metabolism Middle Aged Nutrition research Obesity Oils & fats Palatability Physical fitness Population studies Protein composition Proteins Regulation Sensory properties Social and Behavioral Sciences Sodium Chloride - metabolism Studies Thinness - metabolism Urea Young Adult
title	Testing protein leverage in lean humans: a randomised controlled experimental study
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