OG might have augmented the secretion of insulin by the modulation of cAMP and intracellular calcium levels in the β cells of the pancreas. Our findings indicate that OG isolated first time from the fruit rind of T. bellerica has potential antidiabetic effect as it augments insulin secretion and normalizes the altered biochemical parameters in experimental diabetic rat models.
The present study has been undertaken to evaluate In-vivo Anti–hyperglycemic and anti–oxidant activities of ethanolic Lantana camara leaves extract (LCE). The extract was prepared by cold percolation process. Phytochemical screening indicates that the presence of flavanoids, phenols, carbohydrates etc. The Anti-hyperglycemic activity of the extract was studied by In-vivo using Streptozotocin induced diabetes rat models. Glibenclamide was used as a standard drug to compare the blood glucose level. The groups treated with Lantana camara leaves extract at dose 200 and 400 mg/kg prevented the diabetes condition in a dose related manner. LCE and Glibenclamide treated rats showed decreased LPO that is associated with increased activity of SOD and catalase. The increase in the level of lipid peroxides in plasma generally is thought to be the consequence of increased production of and liberation in to the circulation of tissue lipid peroxides due to pathological changes. This action shows the Anti-peroxidative effect of LCE. The results obtained thus suggest that 50% ethanolic Lantana camara leaves extract possesses potent Anti-hyperglycemic and Anti-oxidant activity.
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