Human gallbladder mucosal function : Effects on intraluminal fluid and lipid composition in health and disease

Gallbladder mucosal absorption of fluid during fasting is a well-known process. Indirect in vivo and recent in vitro evidence for physiologically relevant gallbladder absorption of cholesterol and phospholipids from bile has been observed in humans. The present study explored and compared by indirec...

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Veröffentlicht in:Digestive diseases and sciences 1998-02, Vol.43 (2), p.335-343
Hauptverfasser: CORRADINI, S. G, YAMASHITA, G, CAPOCACCIA, L, HOLZBACH, R. T, NUUTINEN, H, CHERNOSKY, A, WILLIAMS, C, HAYS, L, SHIFFMAN, M. L, WILLIAMS, R. M, SVANVIK, J, DELLA GUARDIA, P
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Sprache:eng
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Zusammenfassung:Gallbladder mucosal absorption of fluid during fasting is a well-known process. Indirect in vivo and recent in vitro evidence for physiologically relevant gallbladder absorption of cholesterol and phospholipids from bile has been observed in humans. The present study explored and compared by indirect means the relative efficiences of human gallbladder mucosal absorption of fluid and lipids in health and disease. Biliary lipids and pigment content were measured in fasting gallbladder bile samples obtained from gallstone-free controls and from four study groups: multiple and solitary cholesterol gallstone patients, and morbidly obese subjects with and without gallstones. Bile salts and pigment content were significantly greater in gallstone-free controls than in all other disease study groups. This was interpreted as evidence of more effective gallbladder mucosal fluid absorption in nonobese gallstone-free controls compared to that in all other groups. Correlation plot analyses of biliary lipids showed lower concentrations of phospholipids than expected from the index bile salt concentrations. The same was found for cholesterol concentrations but only in supersaturated samples. These findings were much more pronounced in gallstone free-controls and were accordingly interpreted as evidence of more efficient gallbladder absorption of both phospholipids and cholesterol in controls compared with that found in each of the disease study groups. Moreover, impaired gallbladder mucosal function, while invariably associated with cholesterol gallstone disease, was not found to be a necessary consequence of the physical presence of stones. It is concluded that efficient gallbladder mucosal absorption of both fluid and apolar lipids from bile is a normal physiological process that is often seriously impaired in the presence of either cholesterol gallstone disease or at least one of its precursor forms.
ISSN:0163-2116
1573-2568
DOI:10.1023/A:1018858406560