Comparative Study: Biguanide-, Sulfonamide-, and Natural Agent-Based Interventions in an In Vivo Experimental Diabetes Model
Iulian Tătaru, Ioannis Gardikiotis, Carmen Lidia Chiţescu, Oana-Maria Dragostin, Maria Dragan, Cerasela Gîrd, Alexandra-Simona Zamfir, Simona Iacob (Ciobotaru), Rodica Vatcu, Catalina Daniela Stan, Carmen Lăcrămioara Zamfir

TL;DR
This study compares the effectiveness of a synthetic sulfonamide, metformin, and a natural extract in reducing blood sugar in diabetic rats, finding that a combination of the sulfonamide and Salvia officinalis extract was most effective.
Contribution
This is the first in vivo study to evaluate the combined effects of a sulfonylurea-type compound and Salvia officinalis extract in a diabetic animal model.
Findings
The combination of sulfonamide S and Salvia officinalis extract reduced blood glucose by 50.2%, outperforming metformin and sulfonamide alone.
Pharmacokinetic analysis showed a larger volume of distribution for sulfonamide S compared to metformin.
No significant correlation was found between plasma drug levels and glycemic response.
Abstract
Background/Objectives: In the context of diabetes, a multifactorial metabolic disorder with significant clinical implications, the present study investigates the hypoglycemic effects of a synthetic sulfonamide (S) administered individually and in combination with Salvia officinalis extract, compared to metformin as a standard therapeutic agent. Methods: An in vivo model of experimentally induced diabetes using alloxan was applied to Wistar female rats, divided into six experimental groups, including a healthy control group and a diabetes-induced, untreated group. Plasma concentrations of metformin and sulfonamide were quantified by high-performance liquid chromatography. The plasma steady-state concentrations of the pharmaceutical agents and their correlation with hypoglycemic effect were evaluated. Results: The combination of the synthetic sulfonamide (S) with Salvia officinalis…
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Taxonomy
TopicsNatural Antidiabetic Agents Studies · Metabolism, Diabetes, and Cancer · Pharmacology and Obesity Treatment
