P. Tulissi

Hepatitis C virus and non-Hodgkin's lymphomas

Hepatitis C virus (HCV) seems to be the aetiologic agent of mixed cryoglobulinaemia, and as this ‘benign’ lymphoproliferative disorder can frequently develop into more aggressive haematological disorders, this study was undertaken to determine the prevalence of HCV infection in non‐Hodgkins lymphomas. 199 unselected subjects treated by three haematological centres in Northeast Italy were investigated for the presence of HCV infection. As controls, the prevalence of HCV infection was determined in a group of patients affected by other haematological malignancies (153 subjects) and in the general population of the same geographical area in the cohort study called the Dyonisos project (6917 subjects).

Clinical and virological findings in mixed cryoglobulinaemia

Abstract. Objectives. As a close relationship has been established between mixed cryoglobulinaemia and hepatitis C virus (HCV) infection, the clinical, histological and virological findings of patients affected by mixed cryoglobulinaemia were determined.

Hepatitis C virus risk: a hepatitis C virus related syndrome

Abstract. Mazzaro C, Panarello G, Tesio F, Santini G, Crovatto M, Mazzi G, Zorat F, Tulissi P, Pussini E, Baracetti S, Campanacci L, Pozzato G (Pordenone General Hospital, Pordenone; University of Trieste, School of Medicine, Trieste, Italy). Hepatitis C virus risk: a hepatitis C virus‐related syndrome. J Intern Med 2000 247: 535–545.

Hepatic glutathione determination after ethanol administration in rat: Evidence of the first-pass metabolism of ethanol

As a fraction of ingested ethanol is metabolized by gastric mucosa, different amounts of alcohol should reach the liver when the same dose is administered by oral or intravenous route. Therefore, we investigated the time-course of hepatic reduced glutathione (GSH) concentrations after intra-peritoneal or intra-gastric load of the same amount of ethanol in the rat. The test was also performed in fasted and Cimetidine-treated rats. The oral ethanol administration was followed by a less pronounced decrease and by a quicker recovery of hepatic content of GSH than after intraperitoneal route. In the fasted rat, basal hepatic GSH significantly decreased; after alcohol administration the decrease of hepatic GSH was more severe and prolonged than in the fed rat. Cimetidine was shown to be a potent inhibitor of gastric ADH. Pre-treatment with Cimetidine did not change the basal levels of hepatic GSH, but after oral ethanol load, the decrease of the hepatic GSH content was significantly (p < 0.005) more pronounced than in controls. This study demonstrates the beneficial effects of gastric ethanol metabolism on the liver. The reduced gastric ethanol metabolism, induced by fasting or by Cimetidine resulted in a decreased content and delayed recovery of liver GSH content.

Alcohol hepatic toxicity in rat: evidence of the utility of gastric ethanol metabolism

Abstract Since a fraction of ingested ethanol (EtOH) is metabolized by gastric mucosa, different amounts of alcohol should reach the liver, when the same dose is administered by oral or intravenous route. Accordingly, we demonstrated that the hepatic depletion of glutathione induced by EtOH is lower when it is administered orally rather than intraperitoneally (i.p.). In the present study we investigated, after EtOH load, the time-course of common serum liver damage tests and of α-glutathione-S-transferase (αGST) levels as a new indicator of hepatocellular injury in rats. The tests were also performed in Cimetidine-treated rats. Oral EtOH administration was followed by a less pronounced decrease and by a quicker recovery of hepatic glutathione than after i.p. route. After oral EtOH load, Cimetidine, a potent inhibitor of gastric alcohol-dehydrogenase, produced a decrease of hepatic glutathione significantly (P

Hepatic glutathione after ethanol administration in rat: effects of cimetidine and omeprazole.

As a fraction of ingested ethanol (EtOH) is metabolized by gastric mucosa, different amounts of alcohol reach the liver, when the same dose is administered by oral or intravenous route. In previous experiments, we demonstrated that the decrease of hepatic reduced glutathione (GSH) is less pronounced and is followed by a quicker recovery after oral than after intraperitoneal administration of the same amount of EtOH. Therefore, the time-course of hepatic GSH concentration seems to be an indirect assay of EtOH metabolism by the liver. On the basis of these findings, any condition causing a reduced function of gastric alcohol dehydrogenase (ADH) should show up as a more severe depletion of hepatic GSH. In the same rat experimental model we determined the effects of cimetidine and omeprazole administration on gastric ADH activity and on the time-course of hepatic GSH after EtOH load. Cimetidine was shown to inhibit gastric ADH with a Ki of 0.167 +/- 0.009 mmol l-1; accordingly, the pretreatment with this drug (20 mg kg-1 b.w. per day for 1 week) determined, after oral EtOH load, a marked reduction of hepatic GSH, likewise after intraperitoneal administration. Omeprazole exerted only a marginal inhibition on gastric ADH and this drug (0.3 mg kg-1 b.w. per day for 1 week) did not modify the time-course of hepatic GSH concentrations after EtOH load. This study indicates that the inhibition of gastric ADH, when associated with EtOH intake, induces depletion of the hepatic GSH concentration and, therefore, possible liver damage.