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Journal Abstract Search

207 related items for PubMed ID: 3379400

  • 1. Brain levels of NADH and NAD+ under hypoxic and hypoglycaemic conditions in vitro.
    Garofalo O, Cox DW, Bachelard HS.
    J Neurochem; 1988 Jul; 51(1):172-6. PubMed ID: 3379400
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  • 4. 31P-n.m.r. studies on cerebral energy metabolism under conditions of hypoglycaemia and hypoxia in vitro.
    Cox DW, Morris PG, Feeney J, Bachelard HS.
    Biochem J; 1983 May 15; 212(2):365-70. PubMed ID: 6882378
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  • 5. Modulating hypoxia-induced hepatocyte injury by affecting intracellular redox state.
    Khan S, O'Brien PJ.
    Biochim Biophys Acta; 1995 Nov 09; 1269(2):153-61. PubMed ID: 7488648
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  • 7. Regionally selective metabolic effects of hypoglycemia in brain.
    Ratcheson RA, Blank AC, Ferrendelli JA.
    J Neurochem; 1981 Jun 09; 36(6):1952-8. PubMed ID: 7017071
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  • 8. Studies on metabolic regulation using NMR spectroscopy.
    Bachelard H, Badar-Goffer R, Ben-Yoseph O, Morris P, Thatcher N.
    Dev Neurosci; 1993 Jun 09; 15(3-5):207-15. PubMed ID: 7805572
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  • 9. Redox state and lactate accumulation in human skeletal muscle during dynamic exercise.
    Sahlin K, Katz A, Henriksson J.
    Biochem J; 1987 Jul 15; 245(2):551-6. PubMed ID: 3663177
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  • 10. NBCe1 mediates the regulation of the NADH/NAD+ redox state in cortical astrocytes by neuronal signals.
    Köhler S, Winkler U, Sicker M, Hirrlinger J.
    Glia; 2018 Oct 15; 66(10):2233-2245. PubMed ID: 30208253
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  • 11. Cerebral metabolic responses of hyperglycemic immature rats to hypoxia-ischemia.
    Vannucci RC, Vasta F, Vannucci SJ.
    Pediatr Res; 1987 Jun 15; 21(6):524-9. PubMed ID: 3601471
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  • 12. The effect of succinate on brain NADH/NAD+ redox state and high energy phosphate metabolism in acute traumatic brain injury.
    Stovell MG, Mada MO, Helmy A, Carpenter TA, Thelin EP, Yan JL, Guilfoyle MR, Jalloh I, Howe DJ, Grice P, Mason A, Giorgi-Coll S, Gallagher CN, Murphy MP, Menon DK, Hutchinson PJ, Carpenter KLH.
    Sci Rep; 2018 Jul 24; 8(1):11140. PubMed ID: 30042490
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  • 13. Redox state of free nicotinamide-adenine nucleotides in the cytoplasm and mitochondria of alveolar macrophages.
    Mintz S, Robin ED.
    J Clin Invest; 1971 Jun 24; 50(6):1181-6. PubMed ID: 4325308
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  • 14. Cyclic GMP affects redox state and improves energy charge of ischaemic Langendorff-perfused rat heart.
    Laustiola K.
    Acta Pharmacol Toxicol (Copenh); 1985 Feb 24; 56(2):139-43. PubMed ID: 2986410
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  • 16. The role of the cytoplasmic redox potential in the control of fatty acid synthesis from glucose, pyruvate and lactate in white adipose tissue.
    Halperin ML, Robinson BH.
    Biochem J; 1970 Jan 24; 116(2):235-40. PubMed ID: 4313115
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  • 18. Evidence that the flux control coefficient of the respiratory chain is high during gluconeogenesis from lactate in hepatocytes from starved rats. Implications for the hormonal control of gluconeogenesis and action of hypoglycaemic agents.
    Pryor HJ, Smyth JE, Quinlan PT, Halestrap AP.
    Biochem J; 1987 Oct 15; 247(2):449-57. PubMed ID: 3426547
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  • 19. Nicotinamide pre-treatment ameliorates NAD(H) hyperoxidation and improves neuronal function after severe hypoxia.
    Shetty PK, Galeffi F, Turner DA.
    Neurobiol Dis; 2014 Feb 15; 62():469-78. PubMed ID: 24184921
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  • 20. Effects of glucose and PaO2 modulation on cortical intracellular acidosis, NADH redox state, and infarction in the ischemic penumbra.
    Anderson RE, Tan WK, Martin HS, Meyer FB.
    Stroke; 1999 Jan 15; 30(1):160-70. PubMed ID: 9880405
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