G.G.A. Jörning scite author profile

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Changes in Brain Metabolism During Hyperammonemia and Acute Liver Failure: Results of A Comparative 1H–Nmr Spectroscopy and Biochemical Investigation

Bosman

Deutz²,

Graaf³

et al. 1990

106

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The effects of hyperammonemia on brain function have been studied in three different experimental models in the rat: acute liver ischemia, urease-treated animals and methionine sulfoximine-treated animals. To quantify the development of encephalopathy, clinical grading and electroencephalographic spectral analysis were used as indicators. In all three experimental models brain ammonia concentrations increased remarkably associated with comparable increases in severity of encephalopathy. Furthermore, in vivo 1H-nuclear magnetic resonance spectroscopy of a localized cerebral cortex region showed a decrease in glutamate concentration in each of the aforementioned experimental models. This decreased cerebral cortex glutamate concentration was confirmed by biochemical analysis of cerebral cortex tissue post mortem. Furthermore, an increase in cerebral cortex glutamine and lactate concentration was observed in urease-treated rats and acute liver ischemia rats. As expected, no increase in cerebral cortex glutamine was observed in methionine sulfoximine-treated rats. These data support the hypothesis that ammonia is of key importance in the pathogenesis of acute hepatic encephalopathy. Decreased availability of cerebral cortex glutamate for neurotransmission might be a contributing factor to the pathogenesis of hyperammonemic encephalopathy. A surprising new finding revealed by 1H-nuclear magnetic resonance spectroscopy was a decrease of cerebral cortex phosphocholine compounds in all three experimental models. The significance of this finding, however, remains speculative.

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A method for measurement of liver iron fractions in needle biopsy specimens and some results in acute liver disease

Zuyderhoudt

Hengeveld

Gool

et al. 1978

Clinica Chimica Acta

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Evaluation of a novel bioartificial liver in rats with complete liver ischemia: treatment efficacy and species-specific α-GST detection to monitor hepatocyte viability

Flendrig

Chamuleau

Maas

et al. 1999

Journal of Hepatology

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G.G.A. Jörning

In vitro evaluation of a novel bioreactor based on an integral oxygenator and a spirally wound nonwoven polyester matrix for hepatocyte culture as small aggregates

Changes in Brain Metabolism During Hyperammonemia and Acute Liver Failure: Results of A Comparative 1H–Nmr Spectroscopy and Biochemical Investigation

A method for measurement of liver iron fractions in needle biopsy specimens and some results in acute liver disease

Evaluation of a novel bioartificial liver in rats with complete liver ischemia: treatment efficacy and species-specific α-GST detection to monitor hepatocyte viability

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