View clinical trials related to Metabolic Syndrome X.
Filter by:Concomitant interventions included lifestyle modification with a personally tailored program of diet as detailed below and physical activity adjusted for age and specific physical limitations, targeting engagement in physical activity of at least 150 minutes/week. Lipid lowering and or blood pressure lowering drugs were prescribed as needed according to guideline-assisted medical practice. Patients were seen by a physician every 3 month. The dietitian had a weekly meeting with the patients for the first three months, every other week during months 4-6, once a month during month 7-9 and every 6 weeks during the last three months of the study.
The outlook of a community-based intervention targeting nutrition and lifestyle behaviour modification among adults with metabolic syndrome (MetS) has not been fully explored. The primary aim of this study (PERSUADE) is to evaluate the effect of the peer support intervention on the clinical outcomes MetS components followed by improvements in the participants' dietary practices, physical activity levels and lifestyle behaviours. The program constructed using information obtained from the published clinical and dietary guideline in Malaysia.
The aim of this study is to investigate the systemic impact of periodontitis in patients with Metabolic Syndrome, by assessing measures of sub-clinical atherosclerosis and cardiovascular risk, microbial factors and host genetic variants, and to study the possible effect of mediators of inflammation and oxidative stress as links between the two conditions.
Rates of obesity and the metabolic syndrome are increasing in the young adult population (years 18-28). Modifying diet, especially increasing fruit and vegetable intake, can help assist in health maintenance and disease prevention. The purpose of this project is to evaluate the impact of the FRUVEDomics behavior intervention on dietary behaviors and metabolic parameters on young adults "at-risk" of disease. FRUVEDomics is an 8-week free-living dietary intervention, based on the USDA Dietary Guidelines for Americans and driven by the Social Cognitive Theory, conducted in young adults (18-28 years old) at West Virginia University. Individuals were recruited if they had pre-existing poor nutritional habits. A metabolic syndrome risk screening score was given to participants at baseline to measure "risk" status for chronic disease. Subjects were randomized into one of three nutritional intervention groups: 1) "FRUVED" (50% fruit & vegetable), 2) "FRUVED+LRC" (50% fruit & vegetable plus low refined carbohydrate), and 3) "FRUVED+LF" (50% fruit & vegetable plus low fat). Anthropometrics, surveys, venous blood samples and body composition were collected before and after the intervention. Group nutrition education including basic nutrition for the prescribed intervention, culinary tool kit distribution, sample budget and grocery shopping tips were delivered to each participant group prior to the start of the intervention. Participants underwent individual weekly consultations with a Registered Dietitian Nutritionist using food logs, food pictures and receipt management, to assess adherence and cost of the intervention.
Pasta is an important example of a food which can lower the glycemic index (GI) of the diet, a property that has been exploited extensively in studies of low GI dietary patterns. Although low-GI dietary patterns have been shown to improve body weight, glycemic control and blood lipids, it is unclear whether pasta as part of low-GI dietary patterns will improve measures of global adiposity including body weight. The lack of high quality knowledge syntheses to support evidence-based dietary guidance of the cardiometabolic benefits of pasta represents an urgent call for stronger evidence. To improve evidence-based guidance for pasta recommendations, the investigators propose to conduct a systematic review and meta-analysis of controlled studies in humans to assess the effect of eating pasta as part of a low GI diet compared to other diets on measures of adiposity (body fatness) in humans. The systematic review process allows the combining of the results from many studies in order to arrive at a pooled estimate, similar to a weighted average, of the true effect. The investigators will be able to explore whether eating pasta as part of a low GI diet has different effects between men and women, in different age groups and in people with high or normal sugar. The findings of this proposed knowledge synthesis will help improve the health of Canadians through informing recommendations for the general public, as well as those at risk of heart disease and diabetes.
Despite advances in the prevention and treatment of type 2 diabetes, its prevalence continues to rise worldwide. There is a need for new modalities to improve metabolic control in individuals with type 2 diabetes and those who are overweight or obese and at risk for type 2 diabetes. Contrary to the concerns raised about the adverse role of fructose in metabolic health, various lines of evidence suggest that fructose and its epimers may improve the metabolic handling of glucose through inducing glycogen synthesis. Recent small trials in humans suggest that catalytic doses (=<10g/meal) of fructose and its epimers (allulose, tagatose, and sorbose) may reduce postprandial glycemic responses to carbohydrate loads (i.e., oral glucose tolerance test or a starch load) in people with and without type 2 diabetes. There is also limited evidence that these acute effects may manifest as longer term improvements in glycemic control. There is an urgent need to synthesize the evidence of the effects of fructose and its epimers on postprandial carbohydrate metabolism.
Consumption of sugar-sweetened beverages (SSBs) has been linked to rising rates of overweight and obesity. The most prominent mechanism to explain the link between SSBs and obesity is that liquid calories are not perceived by the body; thereby, promoting less satiety, less energy compensation and more weight gain than does the same energy consumed in solid form. This view is supported by pooled analyses of acute preload trials that have primarily measured food intake as the outcome. Though failure of short-term compensation has been observed with liquid calories, results from these acute preload trials should not be extrapolated to infer that liquid energy sources lead to weight gain over the long-term. To date, it is unclear whether liquid calories have differential effects than solid calories on body weight gain over the longer term. To increase clarity in this issue, the investigators propose to conduct a systematic review and meta-analysis from long-term controlled feeding trials to distinguish the contribution of liquid calories from solid calories on body weight over the long-term. The findings generated by this analysis will improve the health of consumers through informing evidence-based guidelines and improving health outcomes by educating healthcare providers and patients, stimulating industry innovation, and guiding future research design.
There is an urgent need for stronger evidence to support recommendations for the role of sugars in diabetes and related cardiometabolic diseases. Although large prospective cohort studies have shown a significant positive association of fructose-containing sugars-sweetened beverages with incident obesity, diabetes, heart disease, and stroke, these associations do not appear to hold true for total fructose-containing sugars and other important sources of free fructose-containing sugars such as pure fruit juice, yogurt, or even cakes and sweets. As dietary guidelines have moved away from macronutrient centric recommendations towards more food and dietary-pattern based recommendations, this inconsistency in the data has not been appreciated. There remains a focus on free sugars, in the absence of sufficient information on the role of different food sources of fructose-containing sugars in diabetes and related cardiometabolic diseases. A systematic review and meta-analysis of prospective cohort studies is considered to be the "Gold Standard" of evidence. To provide evidence-based guidance to support the development of public health policy in relation sugars and the primary prevention of diabetes, we will conduct a series of systematic reviews and meta-analyses of the relation of food sources of fructose-containing sugars with incident type 2 diabetes and related cardiometabolic diseases in prospective cohort studies.
Legumes are generally recognized as healthy dietary components, and although beans and legumes are recommended in food guidelines in North America, guidelines vary in regards to how much and how often these foods should be consumed. Furthermore, although North American and European guidelines recommend dietary pulses for glycemic control, dietary pulses and other legumes are not specifically suggested for controlling blood pressure and maintaining heart health. To improve evidence-based guidance for legume recommendations, the investigators propose to conduct a systematic review of clinical studies to assess the effect of eating legumes in exchange for other foods on blood pressure in humans. The systematic review process allows the combining of the results from many small studies in order to arrive at a pooled estimate, similar to a weighted average, of the true effect. The investigators will be able to explore whether eating legumes has different effects in different demographics, and whether or not the effect of legumes depends on how much/often they are eaten. The findings of this proposed knowledge synthesis will help improve the health of Canadians through informing recommendations for the general public, as well as those at risk of heart disease and diabetes.
Our research proposal will determine if PDE-5 inhibition exerts a favorable effect on insulin signaling pathways in skeletal muscle of subjects with impaired fasting glucose and/or impaired glucose tolerance.