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Journal Abstract Search

569 related items for PubMed ID: 27036710

  • 21. Natural Prenylchalconaringenins and Prenylnaringenins as Antidiabetic Agents: α-Glucosidase and α-Amylase Inhibition and in Vivo Antihyperglycemic and Antihyperlipidemic Effects.
    Sun H, Wang D, Song X, Zhang Y, Ding W, Peng X, Zhang X, Li Y, Ma Y, Wang R, Yu P.
    J Agric Food Chem; 2017 Mar 01; 65(8):1574-1581. PubMed ID: 28132506
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  • 22. Inhibitory Effects of Siegesbeckia orientalis Extracts on Advanced Glycation End Product Formation and Key Enzymes Related to Metabolic Syndrome.
    Hung WC, Ling XH, Chang CC, Hsu HF, Wang SW, Lee YC, Luo C, Lee YT, Houng JY.
    Molecules; 2017 Oct 21; 22(10):. PubMed ID: 29065451
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  • 25. Kinetics of α-amylase and α-glucosidase inhibitory potential of Zea mays Linnaeus (Poaceae), Stigma maydis aqueous extract: An in vitro assessment.
    Sabiu S, O'Neill FH, Ashafa AOT.
    J Ethnopharmacol; 2016 May 13; 183():1-8. PubMed ID: 26902829
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  • 28. Calorie Restriction Effect of Heat-Processed Onion Extract (ONI) Using In Vitro and In Vivo Animal Models.
    Kang YR, Choi HY, Lee JY, Jang SI, Kang H, Oh JB, Jang HD, Kwon YI.
    Int J Mol Sci; 2018 Mar 15; 19(3):. PubMed ID: 29543768
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  • 29. Effect of Ficus racemosa stem bark on the activities of carbohydrate hydrolyzing enzymes: an in vitro study.
    Ahmed F, Urooj A.
    Pharm Biol; 2010 May 15; 48(5):518-23. PubMed ID: 20645793
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  • 30. Suppressive effect of a hot water extract of adzuki beans (Vigna angularis) on hyperglycemia after sucrose loading in mice and diabetic rats.
    Itoh T, Kita N, Kurokawa Y, Kobayashi M, Horio F, Furuichi Y.
    Biosci Biotechnol Biochem; 2004 Dec 15; 68(12):2421-6. PubMed ID: 15618610
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  • 31. Screening for potential α-glucosidase and α-amylase inhibitory constituents from selected Vietnamese plants used to treat type 2 diabetes.
    Trinh BTD, Staerk D, Jäger AK.
    J Ethnopharmacol; 2016 Jun 20; 186():189-195. PubMed ID: 27041401
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  • 32. Mulberry leaf extract reduces postprandial hyperglycemia with few side effects by inhibiting α-glucosidase in normal rats.
    Kim GN, Kwon YI, Jang HD.
    J Med Food; 2011 Jun 20; 14(7-8):712-7. PubMed ID: 21631361
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  • 34. Chemical Analysis of the Antihyperglycemic, and Pancreatic α-Amylase, Lipase, and Intestinal α-Glucosidase Inhibitory Activities of Cannabis sativa L. Seed Extracts.
    Haddou S, Elrherabi A, Loukili EH, Abdnim R, Hbika A, Bouhrim M, Al Kamaly O, Saleh A, Shahat AA, Bnouham M, Hammouti B, Chahine A.
    Molecules; 2023 Dec 22; 29(1):. PubMed ID: 38202676
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  • 35. Naringenin inhibits α-glucosidase activity: a promising strategy for the regulation of postprandial hyperglycemia in high fat diet fed streptozotocin induced diabetic rats.
    Priscilla DH, Roy D, Suresh A, Kumar V, Thirumurugan K.
    Chem Biol Interact; 2014 Mar 05; 210():77-85. PubMed ID: 24412302
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  • 39. Scopoletin inhibits α-glucosidase in vitro and alleviates postprandial hyperglycemia in mice with diabetes.
    Jang JH, Park JE, Han JS.
    Eur J Pharmacol; 2018 Sep 05; 834():152-156. PubMed ID: 30031794
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  • 40. Inhibitory effects of crude drugs on alpha-glucosidase.
    Choi HJ, Kim NJ, Kim DH.
    Arch Pharm Res; 2000 Jun 05; 23(3):261-6. PubMed ID: 10896060
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