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Active clinical trials for "Metabolic Syndrome"

Results 431-440 of 1616

VIsceral Fat Reduction Assessed by CT-scan On RImonabAnt

Metabolic Syndrome

Primary objective: To assess the effect of rimonabant on visceral fat area over a period of 12 months when prescribed with a mild hypocaloric diet in abdominally obese patients with metabolic syndrome Secondary objectives: To assess the effect of rimonabant over a period of 12 months on: Liver fat content using CT scan (Computed Tomography scan) Anthropometric measures (weight, waist circumference, body composition using Dual Energy X-ray Absorptiometry (DEXA)) Lipid, lipoprotein profile Glycemia, insulinemia and HbA1c Adipokines, inflammatory and hemostatic markers To evaluate the percentage of patients with metabolic syndrome at 12 months To evaluate the safety and tolerability of rimonabant in these patients In four selected US sites the effect of rimonabant at 12 months will be also assessed on: Basal lipolysis and insulin suppressed lipolysis (euglycemic hyperinsulinemic clamp). Resting metabolic rate and substrate oxidation at rest using indirect calorimetry. Adipose tissue histology and expression of genes involved in glucose and lipid metabolism (superficial adipose tissue biopsy).

Completed34 enrollment criteria

Study of Niacin and Rosiglitazone in Dysmetabolic Dyslipidemia

Metabolic Syndrome XInsulin Resistance

Lipid abnormalities in people with the Metabolic Syndrome (the Insulin Resistance Syndrome) are characterized by elevations in triglycerides and LDL cholesterol; low levels of HDL cholesterol; and small, dense LDL particles. Statins generally do not change LDL particle size, so often fenofibrate is added. This combination may still not be sufficient. Niacin is a common third drug added to the treatment regimen, but niacin can increase insulin resistance. This study compares niacin as a third drug to rosiglitazone, an insulin sensitizer.

Completed2 enrollment criteria

Niacin, N-3 Fatty Acids and Insulin Resistance

Metabolic SyndromeHypertriglyceridemia

This research study is being conducted to test the effects of two drugs on blood lipids (cholesterol and triglycerides) and blood sugar (glucose) levels in patients with diabetes or "pre-diabetes" (both of which have a condition called "insulin-resistance"). These products are Niaspan (extended release nicotinic acid) and Omacor (omega-3 acid ethyl esters). We hypothesize that the combination of Niaspan and Omacor will reduce serum triglyceride levels, increase HDL-cholesterol levels and do so without altering glucose levels.

Completed2 enrollment criteria

Chromium Picolinate for the Treatment of Metabolic Syndrome

Metabolic Syndrome XPrediabetic State3 more

The purpose of this study is to determine whether chromium supplements can reduce symptoms of metabolic syndrome, a collection of symptoms that increase one's risk for developing heart disease, stroke, and diabetes.

Completed24 enrollment criteria

A Comparison of the Effect of Olmesartan Medoxomil, Losartan Potassium, and Atenolol on the Ability...

HypertensionInsulin Resistance1 more

To examine the effect of three different blood pressure medications on the insulin sensitivity in overweight patients with high blood pressure.

Completed13 enrollment criteria

MATCHED (MC-1 and ACE Therapeutic Combination for Hypertensive Diabetics)

Diabetes Mellitus Type 2Hypertension1 more

The purpose of this study is to determine whether MC-1 alone and in combination with an ACE inhibitor is effective in reducing blood pressure and metabolic dysfunctions associated with diabetes

Completed33 enrollment criteria

Ezetimibe (+) Simvastatin vs. Atorvastatin Comparative Study in DM or Metabolic Syndrome Patients...

Hypercholesterolemia

An efficacy and safety study of ezetimibe (+) simvastatin compared to atorvastatin at week 6 in diabetics or metabolic syndrome patients in Korea.

Completed3 enrollment criteria

Identification of Biomarkers for the Study of the Diabetic Foot and Evolution.

Diabetes MellitusDiabetic Foot6 more

The European Working Group on Sarcopenia in the Elderly1 defines sarcopenia as a disorder of the progressive and generalized musculoskeletal system [1], which is associated with the increase and probability of adverse outcomes including falls, fractures, physical disability, and mortality [2]. what is associated with increased and likelihood of adverse outcomes including falls, fractures, disability physical and mortality [2]. For a long time, sarcopenia was associated with aging, affecting onlyold people. At present and after several research works related to fragility and theaging, it has been identified that the development of sarcopenia begins earlier in life [3], and that there are many contributing causes besides aging [4], [5]. This new knowledge has implications in the intervention of sarcopenia that prevents or delays its development. Sarcopenia is currently considered a muscle disease (muscle failure), based on adverse changes in the muscles of the musculoskeletal system accumulated throughout life, with loss of muscle strength such as main determinant [6], [7]. Sarcopenia has been overlooked in clinical practice, apparently due to to the complexity in determining the variables to be measured, how to measure them, and the values or cut-off points can guide diagnosis and treatment, and how best to assess the effects of therapeutic intervention [8]. In terms economic, the presence of sarcopenia increases the risk of hospitalization and increases the cost of care during hospital admission [9]. Diabetes is the main cause of non-traumatic amputation of the lower limb (MI), being foot ulcers diabetic the cause of 80% of the amputations of people with diabetes[10]. A study conducted by the Chongqing University Hospital showed that sarcopenia is independently related to the foot diabetic and that patients with diabetic foot have a worse prognosis if they suffer from sarcopenia. HYPOTHESIS: The surface electromyography (EMGs) signal recording of the foot musculature, will allow extracting biomarkers that allow monitoring and follow-up of sarcopenia in diabetic patients. MAIN OBJECTIVES: 1- Generate tools based on artificial intelligence (AI) using the database with the biomarkers obtained, in order to analyze the predisposing and triggering risk factors associated with diabetic foot ulcers, according to the IWGDF2. 2- Describe the profile of the diabetic patient in terms of degree of sarcopenia with respect to the population without diabetes in a group of adults. DESIGN: Observational study comparison between cases and controls: a group with the presence of Diabetes Mellitus and another without. SAMPLE: Approximately 16% of diabetic patients will develop an ulcer during their evolution and the Annual incidence is 2-3%, which doubles to 6% in the presence of polyneuropathy. Population of the Department of Health 168,978. Prevalence of diabetes in Spain 7.8%. It is estimated that there are 13,182 in the department people with diabetes. Confidence level 95%, expected frequency of ulcers 6% and confidence limit 9%, it was calculates the sample of 26 patients. 30 patients per group will be recruited. GROUP 1: 30 patients with Diabetes Mellitus. GROUP 2: 30 control patients without Diabetes Mellitus. The period of inclusion of patients is estimated at 5 months. METHOD: the assessment interventions will be carried out in two days. During the first visit, examination to identify risk to the foot: clinical history (PA, comorbidity data, previous injuries to the feet). feet..), examination of the vascular state, examination of loss of protective sensitivity, perception of pressure, skin inspection, inspection of bone/joint structures, physical limitations and level of knowledge of the foot care. During the second visit: diagnostic tests for sarcopenia (bioimpedance and electromyography), arthropometric measurements, malnutrition, dependence and activity marker tests. EXPECTED RESULTS: clarify some aspects related to the sarcopenia-diabetic foot binomial, and isolate risk factors for future prevention, by obtaining biomarkers with EMGs in lower limbs.

Not yet recruiting8 enrollment criteria

Pharmacodynamics and Pharmacokinetics of 3 New Developed Coated Glucose Beads in 20 Obese Healthy...

Metabolic SyndromeObesity

This single-dose, randomized, open label, five-treatment, five-period, five-sequence crossover study was performed to assess pharmacodynamics (PD) and pharmacokinetics (PK) of three new developed coated Glucose beads formulations (containing glucose (8 g) and caffeine), one coated Glucose beads formulation (containing glucose (8 g)) and one uncoated Glucose beads formulation (containing Glucose (8 g) and caffeine) after single-dose administration (fasting conditions) in 20 obese healthy subjects. After an overnight fasting of at least 10 hours the subjects were administered either glucose (8 g) or glucose (8 g) and caffeine starting at 8:00 (time 0; administration time was staggered beginning at 8:00 for the first group of subjects) in sitting position. At least 3 days wash-out period was kept between each treatment periods.

Completed31 enrollment criteria

An Observational Study of Patients With Metabolic Syndrome and Related Conditions

Metabolic Syndrome

TARGET-METABOLIC is an observational research study to conduct a comprehensive review of outcomes for patients with metabolic syndrome and related conditions.

Not yet recruiting12 enrollment criteria
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