<b>Effects of bile salt hydrophobicity on crystallization of cholesterol in model bile</b>

Erpecum, Karel J. van; Portincasa, Piero; Gadellaa, Mireille M.; Heijning, Bert J. M. van de; Henegouwen, G. P. van Berge; Renooij, Willem

doi:10.1046/j.1365-2362.1996.1910532.x

Cited by 22 publications

(12 citation statements)

References 25 publications

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“…Also, at a variance to the gallbladder biles obtained from untreated gallstone patients, ultra filtered (isotropic) incubated gallbladder biles from ursodeoxycholate treated patients remained totally crystal-free during the study period [46]. Using a well established model bile system in vitro, we also showed that hydrophilic bile salts such as tauroursodeoxycholate completely prevented cholesterol crystallization and protected against more hydrophobic bile salt-induced crystallization [47,69,70] and this is consistent with previous data [71].…”

Section: Pro-crystallization Anti-crystallizationsupporting

confidence: 89%

Modulation of Cholesterol Crystallization in Bile. Implications for Non- Surgical Treatment of Cholesterol Gallstone Disease

Portincasa

Moschetta

Erpecum

et al. 2005

curr drug targets immune endocr metabol disord

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The first step in cholesterol gallstone disease is precipitation of cholesterol crystals in bile. In gallbladder bile. cholesterol is normally solubilized together with bile salts and phospholipids to form mixed micellar structures. When cholesterol in bile is in excess, vesicles (i.e. phospholipid-cholesterol globular structures: liquid crystals) form which become supersaturated in cholesterol. Early aggregation and precipitation of cholesterol molecules into submicroscopic nuclei occurs from these supersaturated vesicles. This crucial step is followed by precipitation and agglomeration of cholesterol crystals which then become visible at light microscopy. Here we describe the mechanism of cholesterol crystallization and its modulation in vivo and in vitro. Recent advances on the role of ursodeoxycholate as an agent preventing the precipitation of cholesterol crystals in bile will be highligthed.

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Section: Pro-crystallization Anti-crystallizationsupporting

confidence: 89%

Modulation of Cholesterol Crystallization in Bile. Implications for Non- Surgical Treatment of Cholesterol Gallstone Disease

Portincasa

Moschetta

Erpecum

et al. 2005

curr drug targets immune endocr metabol disord

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“…Chemical structure of a cholesterol molecule Numerous investigations of the influence of various chemical environments on crystallization and dissolution pathways of cholesterol molecules have been reported, including those on the effects of solvent type [17][18][19], non-solvent phases [20], temperature [17], pH [21], magnetic field [22], mineral substrates [23,24] and co-existing phases [25][26][27][28], model bile composition [29][30][31], various medicinal plants [32] and synthetic biochemical compounds, such as phospholipids [33], and other sterols [34]. These studies have indicated significant sensitivity of cholesterol crystallization process on many of these physical and chemical factors.…”

Section: Introductionmentioning

confidence: 99%

Uniform particles of pure and silica-coated cholesterol

Uskoković

Matijević

2007

Journal of Colloid and Interface Science

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Uniform crystalline colloidal cholesterol particles of narrow size distribution were obtained by precipitation. The method consisted of adding a miscible non-solvent (water) into cholesterol solutions of different alcohols and acetone, without any additives. The properties of the resulting particles depended in a sensitive way on the concentration of all reactants, temperature, pH, ionic strength, and aging time. The major observed effects were due to the solubility of cholesterol, which was strongly affected by the solvent mixture and temperature. Precipitation in 1-propanol/water system yielded stable dispersions of well-defined particles, which were used to evaluate the effects of different experimental parameters on their properties. Aging of stable dispersions resulted in multi-layered aggregation of the primary platelets, the degree and rate of which process was strongly affected by temperature. Finally, it was shown that the colloidal cholesterol particles could be coated with homogeneous silica layers in order to alter their surface characteristics.

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“…Delay of intestinal transit, associated with gallbladder hypomotility, should be seen in the context of a wide "intestinal disease", since a greater proportion of hepatic bile leads to dihydroxylation, partly mediated by the gut microbiota with a consequent increase of the deoxycholate, strongly hydrophobic and cytotoxic BA. The reuptake in the enterohepatic circle of deoxycholate is able to influence the phenomena of crystallization and nucleation of biliary cholesterol with greater lithogenic effects …”

Section: Discussionmentioning

confidence: 99%

Gastrointestinal defects in gallstone and cholecystectomized patients

Ciaula

Molina-Molina

Bonfrate

et al. 2019

Eur J Clin Investigation

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Background and aim Several gallstone patients complain of dyspeptic symptoms, irrespective of the presence of typical colicky pain. Symptoms often persist after a cholecystectomy. Systematic studies on dyspepsia and dynamic gastrointestinal motor function are missing in gallstone patients with preserved gallbladder or after a cholecystectomy. Materials and methods Forty‐six gallstone patients (age 55 ± 2 years; 15M, 31F) and 24 cholecystectomized patients (age 57 ± 2 years; 6M, 18F) (no difference in type and volume of gallstones between the two groups) were compared against a group of 65 healthy controls (age 51 ± 2 years; 30M, 35F). Dyspepsia occurring in the prior months was assessed by a questionnaire, gastric and gallbladder emptying by functional ultrasonography and orocecal transit time by a hydrogen breath test using a lactulose‐enriched standard liquid meal. Results Gallstone patients had significantly greater dyspepsia, fasting and residual gallbladder volumes, and slower gallbladder emptying, gastric emptying and small intestinal transit time than controls. In cholecystectomized patients, gastric emptying further delayed, compared to gallstone patients and controls. Conclusion Gallstone patients with the gallbladder “in situ” or after a cholecystectomy display dyspeptic symptoms. Symptoms are associated with multiple gastrointestinal motility defects involving the gallbladder, stomach and small intestine. After cholecystectomy, gastric emptying worsens.

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Effects of bile salt hydrophobicity on crystallization of cholesterol in model bile

Cited by 22 publications

References 25 publications

Modulation of Cholesterol Crystallization in Bile. Implications for Non- Surgical Treatment of Cholesterol Gallstone Disease

Modulation of Cholesterol Crystallization in Bile. Implications for Non- Surgical Treatment of Cholesterol Gallstone Disease

Uniform particles of pure and silica-coated cholesterol

Gastrointestinal defects in gallstone and cholecystectomized patients

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