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Journal Abstract Search

232 related items for PubMed ID: 9203157

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  • 5. Selective alterations of extracellular brain amino acids in relation to function in experimental portal-systemic encephalopathy: results of an in vivo microdialysis study.
    Rao VL, Audet RM, Butterworth RF.
    J Neurochem; 1995 Sep; 65(3):1221-8. PubMed ID: 7643101
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  • 6. [Study of the ameliorating effects of an enteral nutrient for liver failure on hepatic encephalopathy: effects of SF-1008C on plasma and brain free amino acids, intracerebral amine concentrations and electroencephalogram in portacaval shunted rats with ammonia loading].
    Kido Y, Sugiyama K, Nakao S, Kashiyama E, Suda T, Miyamoto G, Shimizu T, Shintani S, Kohri H.
    Nihon Yakurigaku Zasshi; 1986 Jul; 88(1):47-56. PubMed ID: 3093339
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  • 7. Intestinal glutamine and ammonia metabolism during chronic hyperammonaemia induced by liver insufficiency.
    Dejong CH, Deutz NE, Soeters PB.
    Gut; 1993 Aug; 34(8):1112-9. PubMed ID: 7909784
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  • 8. Muscle ammonia and glutamine exchange during chronic liver insufficiency in the rat.
    Dejong CH, Deutz NE, Soeters PB.
    J Hepatol; 1994 Sep; 21(3):299-307. PubMed ID: 7836697
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  • 9. Cerebral cortex ammonia and glutamine metabolism during liver insufficiency-induced hyperammonemia in the rat.
    Dejong CH, Kampman MT, Deutz NE, Soeters PB.
    J Neurochem; 1992 Sep; 59(3):1071-9. PubMed ID: 1494899
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  • 10. Methionine sulfoximine prevents the accumulation of large neutral amino acids in brain of portacaval-shunted rats.
    Rigotti P, Jonung T, Peters JC, James JH, Fischer JE.
    J Neurochem; 1985 Mar; 44(3):929-33. PubMed ID: 3973598
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  • 11. Increased blood-brain transport of tryptophan after portacaval anastomoses in germ-free rats.
    Jeppsson B, James JH, Hummel RP, Brenner W, West R, Fischer JE.
    Metabolism; 1983 Jan; 32(1):4-8. PubMed ID: 6848895
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  • 12. Intra- and extracellular amino acid concentrations in portacaval-shunted rabbits. Role of hyperammonemia and effects of branched-chain amino acid-enriched parenteral nutrition.
    Leweling H, Staedt U, Striebel JP, Zeitz R, Holm E.
    Z Ernahrungswiss; 1989 Jun; 28(2):149-72. PubMed ID: 2569793
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  • 13. Hyperammonaemia causes many of the changes found after portacaval shunting.
    Jessy J, Mans AM, DeJoseph MR, Hawkins RA.
    Biochem J; 1990 Dec 01; 272(2):311-7. PubMed ID: 1702623
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  • 14. Glutamine, myo-inositol, and organic brain osmolytes after portocaval anastomosis in the rat: implications for ammonia-induced brain edema.
    Cordoba J, Gottstein J, Blei AT.
    Hepatology; 1996 Oct 01; 24(4):919-23. PubMed ID: 8855198
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  • 15. Cerebral blood flow and metabolism in chronically hyperammonemic rats: effect of an acute ammonia challenge.
    Gjedde A, Lockwood AH, Duffy TE, Plum F.
    Ann Neurol; 1978 Apr 01; 3(4):325-30. PubMed ID: 666274
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  • 16. Ammonia metabolism in normal and portacaval-shunted rats.
    Cooper AJ.
    Adv Exp Med Biol; 1990 Apr 01; 272():23-46. PubMed ID: 2103690
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  • 17. Metabolic adaptation of the kidney to hyperammonemia during chronic liver insufficiency in the rat.
    Dejong CH, Deutz NE, Soeters PB.
    Hepatology; 1993 Oct 01; 18(4):890-902. PubMed ID: 8406365
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  • 18. Regional differences in the capacity for ammonia removal by brain following portocaval anastomosis.
    Butterworth RF, Girard G, Giguère JF.
    J Neurochem; 1988 Aug 01; 51(2):486-90. PubMed ID: 3392540
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  • 19. The effect of blood ingestion on brain serotonin synthesis in portacaval-shunted rats.
    Bartelmess P, Bengtsson F, Nobin A, Jeppsson B, Herlin P, Bugge M.
    Res Exp Med (Berl); 1987 Aug 01; 187(5):353-8. PubMed ID: 2448852
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  • 20. Organ Distribution of 13N Following Intravenous Injection of [13N]Ammonia into Portacaval-Shunted Rats.
    Cruz NF, Dienel GA, Patrick PA, Cooper AJL.
    Neurochem Res; 2017 Jun 01; 42(6):1683-1696. PubMed ID: 27822667
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