Subacute and chronic toxic hepatopathy in cattle grazing pasture with Crotalaria spectabilis.

This report describes subacute and chronic toxic hepatopathy in cattle due to Crotalaria spectabilis poisoning. A total of 200 male Nellore cattle were introduced into a paddock contaminated with C. spectabilis. After spending 20 days grazing in this area, 6 cattle became ill and died. The remaining 194 cattle were moved to non-contaminated pasture in a nearby farm and, 45 days after arrival, 15 cattle became ill and died. Three affected cattle were necropsied. The main clinical changes consisted of anorexia, isolation from the herd, weight loss, jaundice, recumbency, and death. The primary lesions were observed in the liver. Subacutely poisoned cattle had slightly firm livers with an accentuated lobular pattern. Histologically, hepatocyte loss with dilated sinusoids, hepatomegalocytosis, and fibrosis was observed. Cattle with chronic disease had small, pale, firm livers with an irregular hepatic capsular surface. Microscopic changes included hepatocyte loss, hepatomegalocytosis, bile duct proliferation, and fibrosis.

Reparative and Antioxidant Effects of New Analogues of Immunomodulator Thymogen in Experimental Model of Liver Damage.

We studied the reparative and antioxidant effects of Thymogen and its new structural analogues obtained by binding amino acid D-Ala to the N- or C-end of the peptide molecule in acute toxic hepatopathy. Intragastric administration of carbon tetrachloride for 5 days caused the development of fat degeneration of hepatocytes, a decrease in catalase activity, and an increase in malondialdehyde concentration. Administration of peptides suppressed oxidative peroxidation and stimulated reparative regeneration of hepatocytes; Thymogen analogues produced more pronounced hepatotropic and antioxidant effects than Thymogen. Inclusion of D-Ala enhanced the effect of Thymogen on the processes of regeneration in hepatocytes and the antioxidant effect under conditions of acute carbon tetrachloride hepatopathy. The highest efficiency was achieved when the amino acid was added to the C-end of the molecule.

Dehydropyrrolizidine Alkaloid Toxicity, Cytotoxicity, and Carcinogenicity.

Dehydropyrrolizidine alkaloid (DHPA)-producing plants have a worldwide distribution amongst flowering plants and commonly cause poisoning of livestock, wildlife, and humans. Previous work has produced considerable understanding of DHPA metabolism, toxicity, species susceptibility, conditions, and routes of exposure, and pathogenesis of acute poisoning. Intoxication is generally caused by contaminated grains, feed, flour, and breads that result in acute, high-dose, short-duration poisoning. Acute poisoning produces hepatic necrosis that is usually confirmed histologically, epidemiologically, and chemically. Less is known about chronic poisoning that may result when plant populations are sporadic, used as tisanes or herbal preparations, or when DHPAs contaminate milk, honey, pollen, or other animal-derived products. Such subclinical exposures may contribute to the development of chronic disease in humans or may be cumulative and probably slowly progress until liver failure. Recent work using rodent models suggest increased neoplastic incidence even with very low DHPA doses of short durations. These concerns have moved some governments to prohibit or limit human exposure to DHPAs. The purpose of this review is to summarize some recent DHPA research, including in vitro and in vivo DHPA toxicity and carcinogenicity reports, and the implications of these findings with respect to diagnosis and prognosis for human and animal health.