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Journal Abstract Search

392 related items for PubMed ID: 28830979

  • 1. Alterations in fatty acid metabolism and sirtuin signaling characterize early type-2 diabetic hearts of fructose-fed rats.
    Lou PH, Lucchinetti E, Scott KY, Huang Y, Gandhi M, Hersberger M, Clanachan AS, Lemieux H, Zaugg M.
    Physiol Rep; 2017 Aug; 5(16):. PubMed ID: 28830979
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  • 2. Early mitochondrial dysfunction in glycolytic muscle, but not oxidative muscle, of the fructose-fed insulin-resistant rat.
    Warren BE, Lou PH, Lucchinetti E, Zhang L, Clanachan AS, Affolter A, Hersberger M, Zaugg M, Lemieux H.
    Am J Physiol Endocrinol Metab; 2014 Mar; 306(6):E658-67. PubMed ID: 24425766
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  • 3. Inhibition of sarcolemmal FAT/CD36 by sulfo-N-succinimidyl oleate rapidly corrects metabolism and restores function in the diabetic heart following hypoxia/reoxygenation.
    Mansor LS, Sousa Fialho MDL, Yea G, Coumans WA, West JA, Kerr M, Carr CA, Luiken JJFP, Glatz JFC, Evans RD, Griffin JL, Tyler DJ, Clarke K, Heather LC.
    Cardiovasc Res; 2017 Jun 01; 113(7):737-748. PubMed ID: 28419197
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  • 4. An overview of the crosstalk between inflammatory processes and metabolic dysregulation during diabetic cardiomyopathy.
    Palomer X, Salvadó L, Barroso E, Vázquez-Carrera M.
    Int J Cardiol; 2013 Oct 09; 168(4):3160-72. PubMed ID: 23932046
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  • 5. Cardiac and skeletal muscle fatty acid transport and transporters and triacylglycerol and fatty acid oxidation in lean and Zucker diabetic fatty rats.
    Bonen A, Holloway GP, Tandon NN, Han XX, McFarlan J, Glatz JF, Luiken JJ.
    Am J Physiol Regul Integr Comp Physiol; 2009 Oct 09; 297(4):R1202-12. PubMed ID: 19675275
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  • 6. Increased oxidative metabolism following hypoxia in the type 2 diabetic heart, despite normal hypoxia signalling and metabolic adaptation.
    Mansor LS, Mehta K, Aksentijevic D, Carr CA, Lund T, Cole MA, Le Page L, Sousa Fialho Mda L, Shattock MJ, Aasum E, Clarke K, Tyler DJ, Heather LC.
    J Physiol; 2016 Jan 15; 594(2):307-20. PubMed ID: 26574233
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  • 8. In obese Zucker rats, lipids accumulate in the heart despite normal mitochondrial content, morphology and long-chain fatty acid oxidation.
    Holloway GP, Snook LA, Harris RJ, Glatz JF, Luiken JJ, Bonen A.
    J Physiol; 2011 Jan 01; 589(Pt 1):169-80. PubMed ID: 21041527
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  • 9. Disturbed Fatty Acid Oxidation, Endoplasmic Reticulum Stress, and Apoptosis in Left Ventricle of Patients With Type 2 Diabetes.
    Ljubkovic M, Gressette M, Bulat C, Cavar M, Bakovic D, Fabijanic D, Grkovic I, Lemaire C, Marinovic J.
    Diabetes; 2019 Oct 01; 68(10):1924-1933. PubMed ID: 31391173
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  • 10. Rosiglitazone increases fatty acid oxidation and fatty acid translocase (FAT/CD36) but not carnitine palmitoyltransferase I in rat muscle mitochondria.
    Benton CR, Holloway GP, Campbell SE, Yoshida Y, Tandon NN, Glatz JF, Luiken JJ, Spriet LL, Bonen A.
    J Physiol; 2008 Mar 15; 586(6):1755-66. PubMed ID: 18238811
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  • 11. Effect of dietary alpha-linolenic acid on the activity and gene expression of hepatic fatty acid oxidation enzymes.
    Ide T.
    Biofactors; 2000 Mar 15; 13(1-4):9-14. PubMed ID: 11237206
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  • 12. Myocardial infarction in rats causes partial impairment in insulin response associated with reduced fatty acid oxidation and mitochondrial gene expression.
    Amorim PA, Nguyen TD, Shingu Y, Schwarzer M, Mohr FW, Schrepper A, Doenst T.
    J Thorac Cardiovasc Surg; 2010 Nov 15; 140(5):1160-7. PubMed ID: 20850803
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  • 18. Impaired substrate-mediated cardiac mitochondrial complex I respiration with unaltered regulation of fatty acid metabolism and oxidative stress status in type 2 diabetic Asian Indians.
    Jayakumari NR, Rajendran RS, Sivasailam A, Vimala SS, Nanda S, Manjunatha S, Pillai VV, Karunakaran J, Gopala S.
    J Diabetes; 2020 Jul 15; 12(7):542-555. PubMed ID: 32125087
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