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It has been suggested that bacteria in the intestine gain access into the biliary tract by entering the portal-venous blood. We have tested the hypothesis of hematogenous infection of the biliary system in cats. The animals were treated in three different groups: group A (no biliary obstruction), group B (acute biliary obstruction) and group C (chronic biliary obstruction). A mutant strain of Escherichia coli was infused into the splenic vein of cats at three different dosages (10(7), 10(5) and 10(3) with sham controls. In the unobstructed biliary system, the mutant E. coli was isolated from the bile 30 min and 90 min after the infusion of 10(7) and 10(5) E. coli, respectively. No bacteria were found in the bile with the infusion of 10(3) E. coli and in the control animals. Bile flow was significantly reduced with the infusion of bacteria. The biliary excretion of E. coli in group B was similar to that in group A. In group C, the bile output in the first hour was very high but declined rapidly. E. coli was excreted into the bile at all three dosages of infusion after 30 min. Histological sections of the liver showed that the infused bacteria entered the sinusoidal blood and that some were phagocytosed by Kupffer cells. The portal-venous blood was considered an important route of bacterial invasion into the biliary system, and the penetration of bacteria was facilitated in biliary obstruction.
It has been suggested that bacteria in the intestine gain access into the biliary tract by entering the portal-venous blood. We have tested the hypothesis of hematogenous infection of the biliary system in cats. The animals were treated in three different groups: group A (no biliary obstruction), group B (acute biliary obstruction) and group C (chronic biliary obstruction). A mutant strain of Escherichia coli was infused into the splenic vein of cats at three different dosages (10(7), 10(5) and 10(3) with sham controls. In the unobstructed biliary system, the mutant E. coli was isolated from the bile 30 min and 90 min after the infusion of 10(7) and 10(5) E. coli, respectively. No bacteria were found in the bile with the infusion of 10(3) E. coli and in the control animals. Bile flow was significantly reduced with the infusion of bacteria. The biliary excretion of E. coli in group B was similar to that in group A. In group C, the bile output in the first hour was very high but declined rapidly. E. coli was excreted into the bile at all three dosages of infusion after 30 min. Histological sections of the liver showed that the infused bacteria entered the sinusoidal blood and that some were phagocytosed by Kupffer cells. The portal-venous blood was considered an important route of bacterial invasion into the biliary system, and the penetration of bacteria was facilitated in biliary obstruction.
Bacteriological and morphological studies of 38 brown pigment common duct stones were performed. Stone cultures were positive for bacteria in 80.5% of those studied. Enterococci were the most common organisms that were isolated. Scanning electron microscopy showed the presence of bacteria in 84.2% of the stones. The bacteria were seen embedded within an amorphous matrix in alternating layers of flakelike crystals. Transmission electron microscopy showed the presence of gram-positive and gram-negative bacteria surrounded by a ruthenium red-stained exopolysaccharide material. Results of the bacteriological and knorphological studies confirmed the close relationship between the presence of bacteria and the development of brown pigment stones. Calcium bilirubinate stones are classified by their biochemical composition and morphological appearance into laminated brown stones and amorphous black stones (17). Brown pigment stones are an important cause of acute cholangitis in Oriental populations (5). Bacterial infection and the deconjugation of bile by bacterial P-glucuronidase * Corresponding author.
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