Comparative effects on biliary concanavalin A-bound glycoproteins and calcium ion on cholesterol crystal nucleation and growth in model bile
スポンサーリンク
概要
著者
-
Tazuma Susumu
Department Of Medicine And Molecular Science Graduate School Of Biomedical Sciences Hiroshima Univer
-
Teramen Kazushi
First Department Of Internal Medicine Hiroshima University School Of Medicine
関連論文
- Advanced glycation end products enhance the proliferation and activation of hepatic stellate cells
- A Nuclear Receptor-mediated Choleretic Action of Fibrates is Associated with Enhanced Canalicular Membrane Fluidity and Transporter Activity Mediating Bile Acid-independent Bile Secretion
- Partial characterization of cytoprotective mechanisms of lecithin against bile salt-induced bile duct damage
- Choleretic action of diosgenin is based upon the increases in canalicular membrane fluidity and transporter activity mediating bile acid independent bile flow
- Hydrophilic bile salts have a cytoprotective effect against cyclosporine A-induced cholestasis through enhanced canalicular membrane fluidity and transporter activity
- Treatment of Pancreatic Stones With Extracorporeal Shock Wave Lithotripsy : Results of a Multicenter Survey
- Effect of organic anions on acyl chain composition of secreted biliary lecithin in rats: relation to hepatocellular vesicle pathway^1
- Tauroursodeoxycholate and taurochenodeoxycholate stabilize bile lipid metastability through different mechanisms: relation to phospholipid fatty acid composition
- Unique reciprocal changes of hepatocellular membrane transporter expression and fluidity in rats with selective biliary obstruction
- Bilirubin overload modulates bile canalicular membrane fluidity in rats : association with disproportionate reduction of biliary lipid secretion
- Clinical efficacy of intravenous ciprofloxacin in patients with biliary tract infection : a randomized controlled trial with carbapenem as comparator
- Comparative effects on biliary concanavalin A-bound glycoproteins and calcium ion on cholesterol crystal nucleation and growth in model bile