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Journal Abstract Search

515 related items for PubMed ID: 15838274

  • 1. Effects of medium-chain triglyceride (MCT) application to SHR on cardiac function, hypertrophy and expression of endothelin-1 mRNA and other genes.
    Shimojo N, Miyauchi T, Iemitsu M, Irukayama-Tomobe Y, Maeda S, Ohkubo T, Tanaka Y, Goto K, Yamaguchi I.
    J Cardiovasc Pharmacol; 2004 Nov; 44 Suppl 1():S181-5. PubMed ID: 15838274
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  • 2. The benefit of medium-chain triglyceride therapy on the cardiac function of SHRs is associated with a reversal of metabolic and signaling alterations.
    Iemitsu M, Shimojo N, Maeda S, Irukayama-Tomobe Y, Sakai S, Ohkubo T, Tanaka Y, Miyauchi T.
    Am J Physiol Heart Circ Physiol; 2008 Jul; 295(1):H136-44. PubMed ID: 18456726
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  • 4. Effects of exercise training on pathological cardiac hypertrophy related gene expression and apoptosis.
    Lee YI, Cho JY, Kim MH, Kim KB, Lee DJ, Lee KS.
    Eur J Appl Physiol; 2006 May; 97(2):216-24. PubMed ID: 16583233
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  • 6. Changes in cardiac energy metabolism during early development of female SHR.
    LaPier TL, Rodnick KJ.
    Am J Hypertens; 2000 Oct; 13(10):1074-81. PubMed ID: 11041161
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  • 7. Metformin Improves Cardiac Metabolism and Function, and Prevents Left Ventricular Hypertrophy in Spontaneously Hypertensive Rats.
    Li J, Minćzuk K, Massey JC, Howell NL, Roy RJ, Paul S, Patrie JT, Kramer CM, Epstein FH, Carey RM, Taegtmeyer H, Keller SR, Kundu BK.
    J Am Heart Assoc; 2020 Apr 07; 9(7):e015154. PubMed ID: 32248762
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  • 9. Cardiac hypertrophy by hypertension and exercise training exhibits different gene expression of enzymes in energy metabolism.
    Iemitsu M, Miyauchi T, Maeda S, Sakai S, Fujii N, Miyazaki H, Kakinuma Y, Matsuda M, Yamaguchi I.
    Hypertens Res; 2003 Oct 07; 26(10):829-37. PubMed ID: 14621187
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  • 10. Physiological and pathological cardiac hypertrophy induce different molecular phenotypes in the rat.
    Iemitsu M, Miyauchi T, Maeda S, Sakai S, Kobayashi T, Fujii N, Miyazaki H, Matsuda M, Yamaguchi I.
    Am J Physiol Regul Integr Comp Physiol; 2001 Dec 07; 281(6):R2029-36. PubMed ID: 11705790
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  • 11. Molecular mechanism of angiotensin II type I and type II receptors in cardiac hypertrophy of spontaneously hypertensive rats.
    Makino N, Sugano M, Otsuka S, Hata T.
    Hypertension; 1997 Oct 07; 30(4):796-802. PubMed ID: 9336375
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  • 12. Ligand specific variation in cardiac response to stimulation of peroxisome proliferator-activated receptor-alpha in spontaneously hypertensive rat.
    Ismael S, Purushothaman S, Harikrishnan VS, Nair RR.
    Mol Cell Biochem; 2015 Aug 07; 406(1-2):173-82. PubMed ID: 25976666
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  • 15. Effect of pravastatin on development of left ventricular hypertrophy in spontaneously hypertensive rats.
    Lee TM, Lin MS, Chou TF, Tsai CH, Chang NC.
    Am J Physiol Heart Circ Physiol; 2005 Jul 07; 289(1):H220-7. PubMed ID: 15665062
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  • 17. Atrial natriuretic factor and brain natriuretic peptide gene expression in the spontaneous hypertensive rat during postnatal development.
    Kuroski de Bold ML.
    Am J Hypertens; 1998 Aug 07; 11(8 Pt 1):1006-18. PubMed ID: 9715795
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  • 18. Compromised mitochondrial remodeling in compensatory hypertrophied myocardium of spontaneously hypertensive rat.
    Tang Y, Mi C, Liu J, Gao F, Long J.
    Cardiovasc Pathol; 2014 Aug 07; 23(2):101-6. PubMed ID: 24388463
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  • 19. Advanced hypertensive heart disease in spontaneously hypertensive rats. Lisinopril-mediated regression of myocardial fibrosis.
    Brilla CG, Matsubara L, Weber KT.
    Hypertension; 1996 Aug 07; 28(2):269-75. PubMed ID: 8707393
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  • 20. Myocardial hypoperfusion/reperfusion tolerance with exercise training in hypertension.
    Reger PO, Barbe MF, Amin M, Renna BF, Hewston LA, MacDonnell SM, Houser SR, Libonati JR.
    J Appl Physiol (1985); 2006 Feb 07; 100(2):541-7. PubMed ID: 16223983
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