View clinical trials related to Diet Habit.
Filter by:Studies have shown that the effect of fat mass and obesity-associated (FTO) gene on obesity is modulated by lifestyle factors. Hence, we aimed to determine whether two single nucleotide polymorphisms (SNPs) in the FTO gene are associated with obesity and to assess whether these associations were modified by lifestyle factors. The study included 200 obese and 200 non-obese individuals from Turkey. Our study suggests that the effect of the SNPs on obesity traits is likely to be influenced by lifestyle factors in this Turkish population.
Policy makers in Rwanda have recently highlighted the importance of promoting healthy diets and lifestyle in response to rapidly increasing rates of obesity. This project will provide evidence on shifts in diet and nutritional status in urban dwellers as compared to the traditional diet and lifestyle in rural areas as a basis for a targeted public health policy for Rwanda.
The CIRCA-CHEM study is a non-pharmacological, randomized cross-over health intervention trial studying the effect of the time of day on the metabolism and concomitant toxicity of exposures to pesticides found in a balanced fruits and vegetables diet, providing the same weekly portions of fruit and vegetables (isopesticide dietary scheme) but consumed in two different time windows (morning vs. night).
Dietary intake is a major driving force behind the escalating obesity and type 2 diabetes epidemics. Large, high-quality clinical trials have shown that close adherence to healthy dietary recommendations significantly reduce the incidence of obesity and type 2 diabetes, especially among people at increased risk. However, large inter-individual variability exists in response to dietary interventions. To inform more effective obesity and type 2 diabetes prevention strategies, it is crucial to better understand the biological, environmental, and social factors that influence how people interact and respond to specific foods. In a recent large-scale genome-wide association study, our research team has identified 96 genomic regions associated with overall variation in dietary intake. This study provided evidence that inherited molecular differences are likely to impact on food intake (i.e., preference for certain foods) and metabolic homeostasis (i.e., glucose regulation). Connecting knowledge about human genetic variants with information from circulating metabolites can be particularly useful in understanding the mechanisms by which some people experience a detrimental response to specific foods. The specific objective of the PREMIER study is to carry out an interventional dietary study to measure the response of blood glucose and other biomarkers to a standardized meal, and evaluate the extent to which food choices differ among individuals with distinct genetic susceptibility.
Personalized nutrition is one of the most up to date trends in human nutrition and gains much interest of general public and scientists as well. Although we have gained some knowledge on gene-trait associations, the real effectiveness and usefulness of genotype-based nutritional recommendations is unknown. Many personalized nutrition companies are on the market today, some of them use personalized nutrition based on genotype analysis. For this reason, scientific basis of this approach should be clarified. Our project can thus increase knowledge which can be applied in dietary counseling practice. Although we focus on increase vegetable and fruits intake, the study is designed as a proof of concept.
The study team aims to provide a food snack that is high in protein (30 g) for two weeks each month (6 treatments per patient per month) for 6 consecutive months, post-dialysis treatment, to in-center hemodialysis patients of all vintages and with all levels and types of comorbidities. The study team will compare changes in serum albumin during the intervention (6 months) using the patients' own serum albumin results that are collected for three months prior to and three months after the intervention. Additionally, the study team will determine participants' dietary habits and appetite pre-, during and post-intervention.
Briefly, this is a 28-day dietary intervention study participants will be asked to eat 2 ounces (52 grams) of walnuts every day for 3 weeks, and at the end of the study period they will come in for a colonoscopy. Participants will first start a 1-week run-in period where they will be asked to avoid foods high in ellagic acid. In addition, they will be asked to complete food surveys and two sets of 3-day dietary records, and to provide colon biopsies for this study during their routine colonoscopy, as well as a blood, and two urine and stool samples. Urine samples will be used for analysis of urolithin, ellagic acid metabolites. Stool samples will be used to assess gut microbiota changes after walnut consumption. Dietary records will be used for compliance and Food Frequency Questionnaire will be used to assess dietary habits. Lastly, the biopsy samples will be used for analysis of biomarkers and anti-inflammatory in the colon, as well as adherent microbiome to the colonic tissue. Data will be analyzed based on the urolithin phenotypes.
Increasing fruit and vegetable intake is important to health but children's vegetable intake remains low. In younger age groups parents act as gatekeepers by providing access, availability, persuasion and modelling. This study aimed to enhance parent vegetable serving behaviour and child vegetable intake through an 8-week social cognitive theory-based family cooking program.
Obesity is an increasing problem for adults in the UK. Diets high in fat and sugar are the major contributors to weight gain. Individual differences in taste perception are a crucial factor in determining the investigator's choice of foods and an individual's sensitivity to the either bitter or fat taste compounds has been linked to a preference for different foods including sweet and high fat foods. Previous research has not comprehensively explored the effect of both fat and bitter taste sensitivity on dietary intake and obesity status. Therefore, the aim of this study is to explore the associations between genetics, fat and bitter taste sensitivity, food preference, dietary intake and obesity measures in the adult UK population.
The purpose of the study is to evaluate if daily feedback on food-derived metabolites in stool enhances an individual's ability to make and/or sustain a dietary change.