View clinical trials related to Appetitive Behavior.
Filter by:Healthy male participants are recruited to observe potentially deleterious changes in appetite regulation and metabolic control. Participants will be provided with an energy intake representative of their daily requirements on the first day of one trial and will be provided with an additional 50% energy intake on the first day of another trial. Outcome variables will be assessed during the second day of each trial in response to a fixed mixed macronutrient meal tolerance test.
This study investigates the effect of high intensity exercise, with and without the inflammation inhibitor, ibuprofen, on plasma levels of IL-6 and other selective biomarkers of inflammation and appetite on food intake and subjective ratings of appetite in normal-weight boys.
This study investigates the effects of Canderel, an aspartame and acesulfame-k blend artificial sweetener powder, on post-postprandial blood glucose levels and appetite scores.
The investigators propose a randomized, tightly-controlled breakfast trial in normal to overweight adults that will test whether the consumption of various types of protein-rich meals, containing ~24g of protein, will differentially alter food intake and meal initiation through proposed appetite and satiety mechanisms. Aim 1: To examine whether the consumption of protein-rich meals that vary in protein quality (source) effect: 1. postprandial feelings of hunger, fullness, desire to eat, prospective food consumption 2. postprandial fluctuations in key appetite and satiety hormones 3. eating initiation (i.e., motivation to eat (again)) 4. food cravings Aim 2: To examine whether the consumption of protein-rich meals that vary in protein quality (source) effect: 1. energy intake and food choice within the breakfast meal 2. energy intake and food choice at the next eating occasion 3. energy intake and food choice across the entire day
75 overweight, habitual 'breakfast-skipping' adolescents will complete the following long-term, randomized controlled trial. Participants will be randomly assigned to the following breakfast treatments: 350 kcal high protein breakfasts containing 30 g protein (primarily from lean beef), 35 g carbohydrates, and 10 g fat; 350 kcal normal protein breakfasts containing 10 g protein, 55 g carbohydrates, and 10 g fat; or will continue to skip breakfast. The following outcomes will be assessed during baseline and 4-month (post-intervention): body weight & body composition; waist circumference; daily food intake; 24-h free-living glycemic control; and pre and post-prandial satiety. In addition, body weight and free-living breakfast intake (quantity, quality, and type) will also be assessed at 2-month follow-up
Assess the impact of high antioxidant potato products on postprandial glycemic response and subsequent appetite and food intake.
Glycemic carbohydrates are associated with metabolic disturbances, such as type II diabetes, due to rapid digestion of starch into glucose. The specific properties of starch within these foods has been studied for the purpose of slowing their digestion rate and improving related physiological outcomes, such as gastric emptying rate. The current study investigated the relationship among starch digestion, gastric emptying rate and satiety in white and brown rice.
Using a database of individuals with FTO genetic data, the study aims to assess the appetite, energy intake, butyrylcholinesterase, gut hormone responses to a bout of moderate- to high intensity exercise in individuals with genetic variations in the FTO gene.
This study is aimed at understanding neuroendocrine responses to different types of sugars and how this influences feeding behavior among lean, overweight, and obese individuals.