Psyllium-enriched Hamburger Meatballs: Effects on Postprandial Lipidemia, Glycemia, Appetite, and...
NutritionHealthy4 moreThe goal of this clinical trial is to enrich the hamburger meatball with psyllium without impairing its sensory properties and to investigate the effects on acute postprandial lipemia and glycemia, prospective food intake, and some appetite indicators in healthy adults. The main hypotheses of the study are: There is no difference in sensory analysis results between hamburger meatballs enriched with psyllium and those that are not enriched. The rise in postprandial lipids after consuming psyllium-enriched hamburger meatballs is lower than that of classic hamburgers. The rise in postprandial glycemia after consuming psyllium-enriched hamburger meatballs is lower than that of classic hamburgers. The feeling of satiety after consuming psyllium-enriched hamburger meatballs lasts longer, and the feeling of hunger lasts for a shorter period compared to classic hamburgers. Daily food intake after consuming psyllium-enriched hamburger meatballs is less than that of classic hamburgers. Participants will, Eat hamburgers, after fasting for 12 hours, with psyllium-enriched and classic meatballs on intervention days. Keep a record of their food intake for the previous and following 24 hours of each intervention. Be given fasting and postprandial blood samples. Evaluate their hunger and satiety levels on a 100 mm horizontal visual analog scale (VAS) at the beginning and every hour for the following 6 hours of the study.
Improving Quality by Maintaining Accurate Problems in the EHR
AsthmaAtrial Fibrillation11 moreThe overall goal of the IQ-MAPLE project is to improve the quality of care provided to patients with several heart, lung and blood conditions by facilitating more accurate and complete problem list documentation. In the first aim, the investigators will design and validate a series of problem inference algorithms, using rule-based techniques on structured data in the electronic health record (EHR) and natural language processing on unstructured data. Both of these techniques will yield candidate problems that the patient is likely to have, and the results will be integrated. In Aim 2, the investigators will design clinical decision support interventions in the EHRs of the four study sites to alert physicians when a candidate problem is detected that is missing from the patient's problem list - the clinician will then be able to accept the alert and add the problem, override the alert, or ignore it entirely. In Aim 3, the investigators will conduct a randomized trial and evaluate the effect of the problem list alert on three endpoints: alert acceptance, problem list addition rate and clinical quality.
Effect of Different Types of Carbohydrates Consumed After Exercise on Blood Fat Levels
HyperlipidemiaThe increase in fat (i.e. triglyceride) in the blood after a meal is a well-established risk factor for heart disease (Nordestgaard et al. 2007). Endurance exercise is beneficial for improving the blood lipid response to a subsequent meal; that is, the appearance of fat (triglyceride) in the blood is less after a meal if endurance exercise was performed shortly before (i.e. within half a day) of the meal (Petit et al. 2003). This benefit of exercise is unfortunately negated if the after-exercise food choice to replace the calories expended during exercise is one containing high glycemic index carbohydrates. For example, if a high glycemic index carbohydrate is consumed after an evening exercise session, the exercise no longer has an effect of lowering triglyceride in the blood after a meal consumed the next morning (Harrison et al. 2009; Burton et al. 2008). Very rarely do people perform an exercise session and then fast until their next meal hours later. The more common practice is to consume food immediately after the exercise to enhance recovery and because hunger is stimulated with exercise. Consuming carbohydrate with a low glycemic index has been shown to reduce the level of fat in the blood following a subsequent meal (Gruendel et al. 2007). To date, no studies have examined the effects of consuming a low-glycemic index meal after exercise on the blood fat response to a subsequent meal. The specific objective of our research is to determine the effect of consuming low glycemic index lentils after an endurance exercise session on the blood fat (triglyceride) response to a subsequent meal. Twenty-five overweight or obese men will have their blood triglycerides measured four times over six hours after a high-fat morning meal following four different conditions, in a randomized, counterbalanced, cross-over design (i.e. the 25 subjects will each participate in all four conditions, where the order of conditions for each person is randomized): 1) After exercise (90 minutes of moderate intensity walking) is performed the evening before, followed by caloric replacement with a high-glycemic index meal (i.e. white bread and instant mashed potatoes); 2) After the same exercise is performed the evening before, followed by caloric replacement with a lentil-based meal; 3) After the same exercise is performed the evening before, followed by fasting; 4) After a no exercise/ no meal condition (i.e. control condition). In addition to measuring blood triglycerides we will measure blood insulin, free fatty acid, high density lipoproteins, low density lipoproteins, and glucose levels as these are also related to cardiovascular disease risk and may be altered with exercise and lentil consumption. We will also measure the muscle's ability to burn fat (i.e. fat oxidation) by assessing respiratory gases (oxygen consumption and carbon dioxide output) after the high-fat meal because we expect exercise and lentils to increase fat oxidation. Our expected results are that consuming lentils after endurance exercise will lower the blood triglyceride response to a subsequent meal compared to exercise alone or when high-glycemic index carbohydrates are consumed after the exercise.
The Medicines Advice Service Evaluation
Type 2 DiabetesHyperlipidemiasThe purpose of this study is to find out whether talking to a pharmacist on the telephone can help to support people taking medicine for a long-term condition.
Effect of Citrus Bioflavonoids/Vitamin E in Conjunction With Fish Oil Supplementation
HyperlipidemiaThe purpose of this 8-week intervention trial is to investigate the effect of a dietary supplement (containing citrus bioflavonoids and vitamin E) plus fish oil supplementation in healthy hyperlipidemic subjects
Low Carbohydrate Diet - Effect on Plasma Lipids and Metabolic Markers
Overweight and ObesityType IIb Hyperlipidaemia1 moreLow carbohydrate diet may influence the plasma lipid levels.
Cross-Over Multicentre Study in Adolescents
OverweightHyperlipidemiaThe main objective of this study is to evaluate the effects of two diets with different glycemic index and fibre content on glucose metabolism and plasma lipid profile of 80 adolescents in 4 European centres. Secondary objectives are to evaluate the effects of the two standardized diets on selected hormones and variables linked to inflammatory status.
Exenatide (Byetta ®) Regulation of Intestinal and Hepatic Lipoprotein Particle Production in Humans...
HyperlipidemiaExenatide acutely inhibits intestinal lipoprotein particle production. We are unable to speculate whether exenatide affects hepatic lipoprotein production in humans since there is currently no evidence from animal models or in vitro studies that have demonstrated an effect
Efficacy of Exercise at a Fitness Club for Cardiovascular Risk Reduction
Diabetes MellitusHypertension1 moreThe purpose of the study is to determine whether exercise has further beneficial effects on improving cardiovascular risk factors such as hypertension, high cholesterol level or diabetes mellitus, when added to the standard program of health check followed by life style recommendations.
Reducing Clinical Inertia in Diabetes Care
Diabetes MellitusHypertension1 moreIn this randomized trial we evaluate two conceptually distinct but potentially synergistic interventions designed to reduce clinical inertia in the outpatient care of adults with type 2 diabetes. The project addresses the following specific aims; Specific Aim 1. Implement and assess two conceptually distinct but potentially synergistic interventions to reduce clinical inertia related to control of A1c, SBP, and LDL in adults with diabetes. Hypothesis 1. Patients of physicians who receive the Cognitive Behavioral Intervention (CBI) (Group 1) will subsequently have less Clinical Inertia than those who receive no intervention (Group 4). Hypothesis 2. Patients of physicians who receive the Office Systems Redesign intervention (CBI) (Group 2) will subsequently have less Clinical Inertia than those who receive no intervention (Group 4). Hypothesis 3. Patients of physicians who receive the combined CBI plus OSR intervention (Group 3) will subsequently have less Clinical Inertia than those who receive CBI alone (Group 1) or OSR alone (Group 2). Specific Aim 2. Assess the impact of interventions to reduce clinical inertia on health care charges. • Hypothesis 4. After adjustment for baseline measures of health care charges, those who receive no intervention (Group 4), will have higher total health care charges over a 24-month follow-up, relative to the patients of physicians in intervention Group 1, Group 2, or Group 3.