Combination of Metformin/Inulin vs Inulin on Adiponectin in Metabolic Syndrome

Metabolic Syndrome

Agave inulin, Adiponectin, Metabolic syndrome, Metformin, Insulin resistance

Presence of metabolic syndrome (MetS) and its relation with insulin resistance, obesity, dyslipidemia, systemic inflammation and cardiovascular disease is of great concern. The study of certain adipokines such as adiponectin has demonstrated an inverse association with insulin resistance, especially in Latin population lower levels of adiponectin have been observed compared to other ethnic groups. It appears to be an important molecule that is involved in limiting the pathogenesis of obesity-linked disorders and may have potential benefits as a marker to evaluate the effect of possible interventions on the MetS components and its complications. Metformin is treatment of choice in patients with MetS, due to its low cost and pharmacological comparable effects with thiazolidinediones (pioglitazone), it decreases hyperinsulinemia, insulin resistance, free fatty acids and triglycerides, it produces as well, a moderate weight loss, improves lipid profile and delays the appearance of diabetes mellitus in subjects with an abnormal fasting glucose. A second choice to lower the risks would be the addition of a fiber like inulin, a prebiotic, since it has demonstrated metabolic benefits on lipid and carbohydrates metabolism by several mechanisms proposed such as induction of lipogenic enzymes by glucose, production of short-chained fatty acids, glucose-dependent insulinotropic peptide (GIP) and glucagon-like peptide-1 (GLP-1), and growth of Bifidobacterium. A good natural source of inulin is the agave. It is expected that the combination of metformin plus agave inulin will produce a beneficial impact through pharmacological synergism and that will produce changes in the pathophysiology of MetS.

The main objective was to compare the effect of the administration of Metformin/agave inulin vs. Agave inulin on adiponectin in patients with MetS. The investigators conducted a double-blinded randomized trial, on 4 groups, each group with 10 male patients of 40-80 years of age with METS diagnosed by International Diabetes Federation (IDF) criteria. Randomization determined the group assignation during the 12-week trial, each group consisted of: Group (A) Metformin plus agave inulin: 10 individuals received metformin in a dosis of 500 mg per day (1 tablet of 500 mg) plus inulin in a dosis of 10 mg per day (5 mg every 12 hours) during 12 weeks. Group (B) Metformin plus Placebo of agave inulin: 10 individuals received Metformin in a dosis of 500mg per day (with the first bite of the second meal) plus homologue placebo of inulin (calcinated magnesia) in a dosis of 10 mg every 24 hrs (5 mg of calcinated magnesia powder every 12 hours) during 12 weeks. Group (C) Agave inulin plus Placebo of Metformin: 10 individuals received inulin in a dosis of 10 mg every 24 hrs (5 mg every 12 hours) plus homologate placebo of metformin (calcinated magnesia) in a dosis of 500 mg per day (with the first bite of the second meal) during 12 weeks. Group (D) Placebo of Agave inulin plus Placebo of Metformin: homologate placebo of Inulin (calcinated magnesia powder) in a dosis of 10 mg every 24 hrs (5 mg every 12 hours) plus homologate placebo of metformin (calcinated magnesia capsules) in a dosis of 500 mg per day (with the first bite of the second meal) during 12 weeks. The clinical findings and laboratory test included a metabolic profile and biosafety, which was determined at baseline and at 12 weeks. Waist, body weight, body fat, body mass index (BMI) and blood pressure were determined at baseline, follow up and final visit, likewise, a blood sample was obtained, centrifuged and stored at -80° degrees Celsius to be analyzed after within 30 days. The investigators assessed glucose, total cholesterol, c-HDL, c-LDL, triglycerides by enzymatic techniques, and adiponectin and insulin by ELISA. Insulin resistance (IR) was estimated by the homeostasis model assessment (HOMA) with the formula for the HOMA (fasting insulin mcg/L x (fasting glucose (mmol/L)/22.5) Adverse events and adherence to treatment were documented every 4 weeks. Statistical analysis: Values were expressed as mean and standard deviation. Mann-Whitney U Test, Wilcoxon exact test and Kruskal-Wallis. A statistical significance was set at p\<0.05.

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