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Empagliflozin prohibits high-fructose diet-induced cardiac dysfunction in rats via attenuation of mitochondria-driven oxidative stress

Paramesha Bugga, Soheb Anwar Mohammed, Md. Jahangir Alam, Parmeshwar B. Katare, Himanshu Meghwani, Subir Kumar Maulik, Sudheer Arava, S. Banerjee

2022Life Sciences27 citationsDOI

Topics & Concepts

EmpagliflozinInsulin resistanceOxidative stressInternal medicineEndocrinologyFructoseCardiac function curveMedicineType 2 diabetesDiabetes mellitusInsulinFIS1Pharmacologymitochondrial fusionChemistryHeart failureBiochemistryGeneMitochondrial DNADiet, Metabolism, and DiseaseCardiovascular Function and Risk FactorsPancreatic function and diabetes
Empagliflozin prohibits high-fructose diet-induced cardiac dysfunction in rats via attenuation of mitochondria-driven oxidative stress | Litcius