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Journal Abstract Search

129 related items for PubMed ID: 8847479

  • 1. Tetradecylthioacetic acid incorporated into very low density lipoprotein: changes in the fatty acid composition and reduced plasma lipids in cholesterol-fed hamsters.
    Frøyland L, Asiedu DK, Vaagenes H, Garras A, Lie O, Totland GK, Berge RK.
    J Lipid Res; 1995 Dec; 36(12):2529-40. PubMed ID: 8847479
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  • 2. Hepatic fatty acid metabolism as a determinant of plasma and liver triacylglycerol levels. Studies on tetradecylthioacetic and tetradecylthiopropionic acids.
    Asiedu DK, al-Shurbaji A, Rustan AC, Björkhem I, Berglund L, Berge RK.
    Eur J Biochem; 1995 Feb 01; 227(3):715-22. PubMed ID: 7867630
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  • 3. Long-term effect of tetradecylthioacetic acid: a study on plasma lipid profile and fatty acid composition and oxidation in different rat organs.
    Asiedu DK, Frøyland L, Vaagenes H, Lie O, Demoz A, Berge RK.
    Biochim Biophys Acta; 1996 Apr 19; 1300(2):86-96. PubMed ID: 8652642
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  • 4. The amount of dietary cholesterol changes the mode of effects of (n-3) polyunsaturated fatty acid on lipoprotein cholesterol in hamsters.
    Lin MH, Lu SC, Huang PC, Liu YC, Liu SY.
    Ann Nutr Metab; 2004 Apr 19; 48(5):321-8. PubMed ID: 15467282
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  • 6. Effects of dietary cholesterol and fatty acids on plasma cholesterol level and hepatic lipoprotein metabolism.
    Ohtani H, Hayashi K, Hirata Y, Dojo S, Nakashima K, Nishio E, Kurushima H, Saeki M, Kajiyama G.
    J Lipid Res; 1990 Aug 19; 31(8):1413-22. PubMed ID: 2280182
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  • 11. The high-fat high-fructose hamster as an animal model for niacin's biological activities in humans.
    Connolly BA, O'Connell DP, Lamon-Fava S, LeBlanc DF, Kuang YL, Schaefer EJ, Coppage AL, Benedict CR, Kiritsy CP, Bachovchin WW.
    Metabolism; 2013 Dec 19; 62(12):1840-9. PubMed ID: 24035454
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  • 13. Modulation of plasma and hepatic oxidative status and changes in plasma lipid profile by n-3 (EPA and DHA), n-6 (corn oil) and a 3-thia fatty acid in rats.
    Demoz A, Asiedu DK, Lie O, Berge RK.
    Biochim Biophys Acta; 1994 Apr 21; 1199(3):238-44. PubMed ID: 8161562
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  • 14. Comparison of hypocholesterolemic effects induced by dietary linoleic acid and oleic acid in hamsters.
    Kurushima H, Hayashi K, Toyota Y, Kambe M, Kajiyama G.
    Atherosclerosis; 1995 Apr 24; 114(2):213-21. PubMed ID: 7605390
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  • 16. On the mechanism of the hypolipidemic effect of sulfur-substituted hexadecanedioic acid (3-thiadicarboxylic acid) in normolipidemic rats.
    Skorve J, al-Shurbaji A, Asiedu D, Björkhem I, Berglund L, Berge RK.
    J Lipid Res; 1993 Jul 24; 34(7):1177-85. PubMed ID: 8371065
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  • 17. Effects of dietary phenolic compounds on tocopherol, cholesterol, and fatty acids in rats.
    Kamal-Eldin A, Frank J, Razdan A, Tengblad S, Basu S, Vessby B.
    Lipids; 2000 Apr 24; 35(4):427-35. PubMed ID: 10858028
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  • 18. Du-zhong (Eucommia ulmoides Oliver) leaf extract mediates hypolipidemic action in hamsters fed a high-fat diet.
    Choi MS, Jung UJ, Kim HJ, Do GM, Jeon SM, Kim MJ, Lee MK.
    Am J Chin Med; 2008 Apr 24; 36(1):81-93. PubMed ID: 18306452
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  • 19. Peroxisome proliferating sulphur- and oxy-substituted fatty acid analogues are activated to acyl coenzyme A thioesters.
    Aarsland A, Berge RK.
    Biochem Pharmacol; 1991 Jan 01; 41(1):53-61. PubMed ID: 1670918
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  • 20. Cholesterol and fatty acid metabolism in piglets fed sow milk or infant formula with or without addition of cholesterol.
    Rioux FM, Innis SM.
    Metabolism; 1993 Dec 01; 42(12):1552-9. PubMed ID: 8246769
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