View clinical trials related to Food Selection.
Filter by:Front-Of-Pack (FOP) nutrition labelling, providing simplified information on nutritional content at a glance, in order to help consumer make informed choices, has been identified as of major interest by public health specialists of many countries. French health authorities are currently considering the endorsement of a FOP nutrition label, but no specific format has yet been determined. A more simplified FOP nutrition label has been put forward in France, the 5-Colour Nutrition Label (5-CNL). Recent data suggests that the 5-CNL FOP label is well perceived and understood by consumers. The introduction of a FOP nutrition labelling system has been identified as challenging in certain population groups, due to their lower level of nutrition knowledge and unhealthier diets. The aim of the investigators is to evaluate the impact of FOP nutrition labels on the nutritional quality of the shopping cart in an online experimental supermarket in various nutritionally at-risk populations. Two FOP systems will be tested to a control situation without FOP labelling: the Reference Intakes (RI), currently in use by some manufacturers and present in a portion of food products sold in France, and the 5-Colour Nutrition Label (5-CNL). Three 3 arm parallel arm randomized trials are designed, each targeting a specific population. The methodology and interventions are identical across trials. Trials will be conducted in: 1) Working adults between 30-50 years old with low income, 2) Students and 3) Older subjects with identified chronic diseases. The intervention consists in the application of FOP nutrition labels on all food products, either the RI label, currently in use in some products in France, and the 5-CNL label. A control situation with no FOP will also be used. Participants will be asked to perform a shopping session in an experimental online supermarket, in one of the three experimental conditions described. The main outcome will be the overall nutritional quality of the shopping cart, assessed using the mean Food Standards Agency Nutrient profiling system score of the items in the shopping cart.
The goal of this study is to determine subjective gastrointestinal tolerance response and differences in breath hydrogen response following the consumption of different types of low FODMAP oral nutrition supplements. This randomized, crossover study requires participants to arrive to the lab 12 hours fasted, consume an oral liquid supplement and complete gastrointestinal tolerance questionnaires as well as produce samples for breath hydrogen analysis at various time points over a 4 hour time period.
The goal of this study is to determine subjective gastrointestinal tolerance response and differences in breath hydrogen response following the consumption of two types of juice. This double-blind crossover study requires participants to arrive to the lab 12 hours fasted, consume 12 oz of juice and complete gastrointestinal tolerance questionnaires as well as produce samples for breath hydrogen analysis at various time points over the next 3 hours. Subjects will be asked to complete additional questionnaires at 12 and 24 hours post consumption, from home. Subjects will also be asked to keep a food record for 24 hours prior to their scheduled visit times to assure compliance.
The satiety effects of pulses compared to a matched smoothie will be measured.
The satiety effects of the combination of protein and fiber within egg and whole grain breakfast meals. High protein with low and high-fiber is hypothesized to be more satiating than low protein, low fiber.
The satiety effects of beef will be compared to beans. Beef is hypothesized to be more satiating than beans.
The combination of fiber and protein added to pasta will enhance satiety.
The investigators hypothesize that consumption of either white or brown rice will be more satiating than glucose control.
Research suggests dietary fiber may decrease transit time through the gastrointestinal tract. Research studies traditionally use radio-opaque markers to determine gastric emptying, colonic transit, and whole gut transit time. The SmartPill is a single use pill that can be used to determine gastric emptying, colonic transit, and whole gut transit time without requiring X-rays or fecal collections. Previous studies have found radio-opaque markers and the SmartPill detect the similar transit times. The purpose of this pilot study is to determine if the SmartPill can detect a change in transit time using a significant dose of dietary fiber.