William J. Racz scite author profile

Dietary 2-acetylaminofluorene (2-AAF) coupled with a stimulus for cell proliferation such as a 2/3 partial hepatectomy (PH) or a necrotizing dose of carbon tetrachloride is frequently employed to generate nodules of resistant ("initiated") rat hepatocytes. This regimen is a useful model for experimental analysis of alterations in hepatocytes during carcinogenesis, and also as an assay for initiation by various carcinogens. Because of the decreasing availability of carcinogen-containing diets from commercial sources, we have developed alternative methods of 2-AAF administration to generate nodules in rats initiated with N-nitrosodiethylamine. This study compared the nodule-selecting and cancer-promoting efficacy of 2-AAF administered by the Solt-Farber procedure (0.02% in diet for 2 weeks) with 2-AAF administered by gavage, as a suspension in 1% aqueous carboxymethyl-cellulose (CMC). Three or 4 daily administrations of 2-AAF by gavage (20 mg/kg/day) followed by PH on day 4 were equivalent to the dietary regimen in generating early resistant nodules, late persistent nodules and hepatocellular carcinomas. These regimens were similar to the dietary regimen of 2-AAF in inhibiting virtually all normal hepatocyte proliferation. These regimens permit control over the duration and level of 2-AAF exposure and the resulting size of selected nodules.

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Inhibition of mitochondrial respiration in vivo is an early event in acetaminophen-induced hepatotoxicity

Donnelly

Walker²,

Racz

1994

Arch Toxicol

112

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The role of mitochondrial injury in bromobenzene and furosemide induced hepatotoxicity

2000

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Acetaminophen–Induced Hepatotoxic Congestion in Mice

Walker

Racz

McElligott

1985

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Acetaminophen-induced (750 mg per kg p.o.) hepatotoxicity in mice is characterized by hepatomegaly and massive centrilobular congestion which precede the appearance of necrosis. The vascular changes are correlated with the morphologic features using liver hemoglobin content to quantitate erythrocyte sequestration, and hematocrit measurements and 125I-albumin injections to determine plasma and blood volume. The initial increase in liver size was a result of plasma accumulation due to endocytic vacuolation of hepatocytes and Disse space enlargement in centrilobular regions. Further increases in liver size after 3 hr were a consequence of erythrocyte and additional plasma sequestration within the damaged liver. These events occurred without any increase in intrahepatic or portal venous pressure. Hepatic hemoglobin and plasma levels increased 10- and 5-fold, respectively, by 4.5 to 6 hr after administration of acetaminophen. There are two major consequences of acetaminophen-induced hepatotoxic congestion. First, blood and plasma volumes fell significantly, and we suggest that hypovolemic shock contributes to early mortality after acetaminophen. Second, impaired circulation within the congested liver, as manifested by reduced 125I-albumin entry into the liver when 125I-albumin was injected after congestion had developed, probably aggravates the initial injury. Early lesions were always evenly distributed around central veins. However, the pattern of damage at 24 hr could be variable. Occasional large confluent areas of necrosis were always congested, which is consistent with the concept that secondary ischemic damage can develop. Congestion and hypovolemia are reversible and can be largely prevented by administration of the protective compound N-acetylcysteine (1,200 mg per kg p.o.) 3 hr after acetaminophen.

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William J. Racz

Alternative methods of selecting rat hepatocellular noduli resistant to 2‐acetylaminofluorene

Inhibition of mitochondrial respiration in vivo is an early event in acetaminophen-induced hepatotoxicity

The role of mitochondrial injury in bromobenzene and furosemide induced hepatotoxicity

Acetaminophen–Induced Hepatotoxic Congestion in Mice

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