Effects of gadolinium chloride and glycine on hepatic and pancreatic tissue damage in alcoholic pancreatitis

Abstract

Objective: Systemic complications in alcoholic pancreatitis are supposed to be aggravated by inflammatory liver damage. Resident macrophages including hepatic Kupffer cells play a pivotal role in mediating systemic complications in severe necrotizing pancreatitis (SNP). The aim of this study was to evaluate the effects of Kupffer cell inhibition on the inflammatory liver damage in experimental alcoholic pancreatitis.

Methods: Rats were fed with either alcohol or control diet for 6 weeks before induction of SNP. Animals were allocated into 4 groups: healthy controls, controls with SNP, SNP with gadolinium chloride or glycine (permanent vs temporary inhibition of hepatic Kupffer cells) prophylaxis. Hepatic microcirculation and morphologic damage of the liver and pancreas were assessed.

Results: Alcohol feeding and SNP increased hepatic and pancreatic injury compared with SNP alone. Gadolinium chloride and glycine improved hepatic microcirculation. In contrast, pancreatic and hepatic morphological damage was reduced by gadolinium chloride but not by glycine.

Conclusions: Alcohol exposure aggravates hepatic and pancreatic injury in SNP. Gadolinium chloride reduces both microcirculatory and morphological damage, whereas glycine did not improve histological damage.