Eon™ FR 1064 Full Abdomen Clinical Study Protocol
Abdominal ObesityThis is a marketing study intended to provide additional data for marketing purposes for the eon™ FR is FDA 510(k) which has been cleared for non-invasive lipolysis of the abdomen to achieve disruption of adipocyte cells intended for non-invasive aesthetic use to achieve a desired aesthetic effect. This device is intended for individuals with a Body Mass Index (BMI) of 30 kg/m2 or less.
Effects of Acipimox on Mitochondrial Function in Obesity
Abdominal ObesityInsulin Resistance1 moreThe purpose of the study is to examine whether a medication called acipimox can improve your body's mitochondria. Mitochondria are the "power house" of the cell and make energy for your body. Obesity is associated with increased risk for developing diabetes. However, the investigators do not know how obesity leads to diabetes. Previous studies have shown levels of fat in the blood (free fatty acids or FFA) are higher in obesity, and elevated FFA can affect how our body uses glucose and responds to insulin. Recent studies have shown that changes in mitochondria may be involved in the development of diabetes and may be affected by FFA. The investigators propose to improve the function of mitochondria in obese people with pre-diabetes by treating with acipimox, a medication which decreases FFA. The investigators will use state of the art techniques to evaluate the mitochondria, including a new magnetic resonance imaging (MRI) technique to measure function of mitochondria in muscle.
Pilot Study With GFT505 (80mg) in Patients With Insulin Resistance and Abdominal Obesity
Insulin ResistanceAbdominal ObesityThe purpose of this study is to demonstrate the efficacy on insulin sensitivity of GFT505 at 80mg/d in male patients with insulin resistance and abdominal obesity. Evaluation will be made using a glucose clamp technique.
Growth Hormone Treatment in Men With High Risk of Developing Type 2 Diabetes Mellitus
Abdominal ObesityMetabolic Syndrome1 moreThe overall aim of this study is to investigate the effects of GH treatment in men with the Metabolic Syndrome and a high risk of developing type 2 DM. Forty men with abdominal obesity and impaired glucose tolerance will be randomized to two parallel treatment groups with GH and placebo for 12 months. The subjects will receive treatment with recombinant human GH (Genotropin®) or placebo administered by a daily s.c. injection before bedtime. The initial dose of GH will be 0.4 IU per day increased to 0.8 IU after 2 weeks and to 1.2 IU after 4 weeks of treatment. Thus, the target dose is 1.2 IU per day which resembles approximately 0.015 IU/kg/day. The GH dose will be reduced by half in the event of side-effects. Oral and written instructions in terms of administration and dosage will be given. The treatment can be discontinued by the patient. The treatment should be discontinued if malignancy is discovered, DM developes, if the subject experience a cerebrovascular disease and in the event of any other side-effects that is considered as serious. The treatment code for each subject included in the trial will be kept at the Sahlgrenska University Hospital Pharmacy. This code can be broken on the request of the investigator. Compliance will be assessed by collecting empty vials from the study subjects. The treatment is discontinued at the end of the study.
A Study of Safety and Efficacy of Topiramate in Male Patients With Abdominal Obesity
ObesityThe purposes of this study are to compare the effects of Topiramate and placebo on abdominal visceral fat accumulation at 6 months and to evaluate the safety of Topiramate for up to 12 months of continued treatment in male patients with abdominal obesity.
Aerobic Training and Non-Exercise Physical Activity
Central ObesityObesityThis study will determine the health benefits of combining exercise training and increasing the amount of physical activity in daily life on the fat around the abdomen, weight, fitness and sensitivity to insulin. Volunteers will participate in one of three groups for 6 months: 1) a control group, 2) exercise training only, or 3) exercise training and increasing physical activity outside of training. The exercise training will follow the public health recommendations for exercise (150 minutes/week of moderate exercise). The group increasing physical activity along with exercise training will be asked to increase physical activity in their daily life (up to 3,000 step/day above their current levels through the use of step counters), and meetings focused on behavior modification. The investigators hypothesize that combining aerobic training and additional physical activity after training will have the most profound reduction on waist circumference and body composition.
Effect of Balanced Hypocaloric Diet Associated With Supplementation of Eggplant Meal in the Remission...
ObesityObesity1 moreCardiovascular diseases (CVD) prevail as the main cause of death in developed and developing countries and are among the most frequent causes of disabilities in Brazil and in the world. Economic alternatives have been studied to assist in reducing cardiovascular risk factors. Within this context, the Solanum menogena, whose fruit known as eggplant is widely consumed in Brazil, is being used in alternative medicine with the purpose to reduce the concentrations of cholesterol, glucose and promote loss of body weight. Aubergine (eggplant) stands out for its high fibre content (approximately 40%) and low fat content. In addition, it is popularly known for its functional properties, aiding in reducing the risk of coronary diseases. The purplish coloring of the eggplant peel is attributed to the large amount of flavonoids, which have antioxidant properties and contribute to the flavor of eggplant. The investigators hypothesis is that the eggplant flour associated with a restricted calorie diet has effect in reduction in waist circumference, reduction of body fat and increasing HDL-cholesterol; this way, contributing to the reduction of cardiovascular risk factors All participants will be informed about the research and they will have to sign a consent form. The volunteers will be divided into two groups: one group will receive a restricted-calorie diet and supplementation with eggplant flour; and the other will receive a diet plus a placebo for 120 days, being both groups evaluated monthly. In each consultation, evaluation of weight, body composition, fulfillment of the diet and blood pressure measurement will be performed. In addition, blood will also be collected in order to determine glucose, insulin, total cholesterol, LDL, HDL, triglycerides, oxidized anti-LDL antibodies, 15-isoprostane and minerals (selenium, zinc, iron, manganese, magnesium and copper). The results will be analyzed by statistical program. The investigators expect that with the results obtained, the eggplant flour can be used as an ally in the prevention of cardiovascular diseases.
Effects of Almond Intake on Atherogenic Lipoprotein Particles
DyslipidemiaObesity1 moreIncreased abdominal adiposity is a key feature of metabolic syndrome, which describes a cluster of cardiovascular disease (CVD) risk factors that also includes insulin resistance, high blood pressure and an atherogenic lipoprotein phenotype characterized by increased plasma triglycerides, low HDL-C, and increased levels of small LDL particles. While lifestyle intervention remains the cornerstone for managing obesity and metabolic syndrome, the optimal dietary macronutrient distribution for improving blood lipids and CVD risk remains a topic of controversy. While both low carbohydrate diets and weight reduction are effective for managing atherogenic dyslipidemia, long-term compliance is low, and it becomes imperative to identify alternative dietary approaches. Increased consumption of almonds has been shown to lower LDL-C, an effect that exceeds that predicted from changes in fatty acid intake. However, although LDL-C lowering by almonds has been demonstrated in patients with diabetes, there have been no trials in non-diabetic patients with abdominal obesity. Moreover, there is limited information of the effects of almond intake on LDL particle subclasses. The overall objective of the present study is to determine whether lipoprotein measures of CVD risk in individuals with increased abdominal adiposity are reduced by almond supplementation in a diet with overall macronutrient content that conforms to current guidelines. Our main hypothesis is that in these individuals, almond consumption can reduce levels of small and medium LDL particles without the need to restrict dietary carbohydrates to levels below those currently recommended. This hypothesis will be tested by comparing the lipoprotein effects of an almond-supplemented diet (20%E) with those of two reference diets that do not contain almond products: one with similar content of carbohydrate, protein, and fat (standard reference), and the other in which carbohydrate content is reduced by substitution of protein and monounsaturated fat (low-carbohydrate reference). We will provide the diets for 3 weeks each in a randomized 3-period crossover design to 40 individuals with increased abdominal adiposity. We will test whether the almond supplemented diet will result in lower levels of lipoprotein measures of CVD risk, specifically LDL-C and small and medium LDL particles, compared to either the standard or low-carbohydrate reference diets.
Efficacy of ECE PEDO (Equipment for Clever Exercise) on Abdominal Obesity
ObesityAbdominal1 moreObjective: To show the effectiveness of walking with ECE PEDO (Equipment for Clever Exercise) comparing supervised treadmill walking corresponding moderate aerobic exercise intensity on abdominal obesity and cardiorespiratory capacity.
Vitamin D Supplementation on Metabolic Syndrome Indicators Among Older Adults, Alborz Province,...
Vitamin D DeficiencyDiabetes Mellitus4 moreGeneral objective: To assess the effect of vitamin D supplementation on metabolic syndrome among food insecure and vitamin D deficient older adults in Karaj city, Alborz province in Iran. A two-arm randomised controlled trial (RCT) will be conducted by recruiting participants. Inclusion Criteria: Food insecure, metabolic syndrome; Vitamin D deficiency Exclusion Criteria: those who are already taking any type of vitamin D supplements, Individuals with a history of allergy, Those subjects with serious medical condition such as cancer, heart attack, stroke, and etc., Intervention group: The intervention will start from 10 of May 2017 to 11 of July 2017 for 2 months. The intervention group will receive 50,000 U vitamin D3 per week (equivalent to 1,250 μg) for 8 weeks plus pamphlets and brochures about nutrition and health at the beginning of the study. Control group: The respondents in control group will receive placebo plus brochures and pamphlets related to nutrition and health at the beginning of the study. The data collection process will identify the older adults for both groups; intervention and control. Consent will be obtained from those who are eligible. Anthropometric measurement (height, weight, body mass index, and waist circumference), blood pressure measurement, blood taking and three-day food record will be obtained during baseline from all study respondents in the intervention and control groups. Primary Output: Achieving 25 (OH) D upper than insufficient serum 25(OH) D level >30 ng/l. Secondary Output: Reduction anthropometry (body mass index (BMI) and waist circumference (WC), Improved Biomarkers indicators (lipid profile, fasting blood fast), improved blood pressure before and after intervention.