S. Hyder Hussaini scite author profile

Background-Octreotide treatment of acromegalic patients increases the 0/0 deoxycholic acid conjugates and the cholesterol saturation ofgall bladder bile, and induces gall stone formation. Aims-To study the roles of gall bladder emptying and intestinal transit in these phenomena. Methods and patients-Gall bladder emptying and mouth to caecum transit was measured in (a) control subjects and acromegalic patients given saline or 50 Kug ofoctreotide, and (b) acromegalic patients taking long term octreotide. In the second group, large bowel transit was also measured. Results-A single dose of octreotide inhibited meal stimulated gall bladder emptying, the ejection fraction falling from mean (SEM) 66-0 (2.3)% to 7.0 (5.3)0/o in controls (p<0'001); from 72-5

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The role of bile composition and physical chemistry in the pathogenesis of octreotide-associated gallbladder stones

Hussaini

Murphy

Kennedy

et al. 1994

Gastroenterology

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Deoxycholic acid influences cholesterol solubilization and microcrystal nucleation time in gallbladder bile

Hussaini

Pereira

Murphy

et al. 1995

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Little is known about the effects of biliary deoxycholic acid on the partitioning of biliary cholesterol between vesicles and micelles and on the rate of nucleation of cholesterol microcrystals, key steps in gallstone formation. Therefore, 43 samples of fresh gallbladder bile were obtained from a heterogeneous group of patients with and without stones. Univariate and multivariate analyses were then applied to determine the inter-relationships between biliary cholesterol saturation, total lipid concentration, and bile acid species and (1) the distribution of biliary cholesterol between vesicles and micelles and (2) the cholesterol microcrystal nucleation time. The percentage of deoxycholic acid in bile was shown to be linearly related to the cholesterol saturation index (r = .54; P < .001), the vesicular cholesterol:phospholipid molar ratio (r = .53; P < .001), and the molar concentration of cholesterol in the vesicles (r = .59; P < .001). The mean proportion of biliary deoxycholic acid conjugates was also greater in patients with rapid nucleation times (23.4 +/- SEM 1.1%) than in those with slow nucleation times (17.3 +/- 1.9%; P < .05). As total bile lipid concentration increased, the proportion of total biliary cholesterol in vesicles decreased (r = .53; P < .001), whereas the molar concentration of vesicular cholesterol increased (r = .42, P < .01). The cholesterol saturation indices, total bile lipid concentration, and proportion of biliary deoxycholate were independent determinants of the molar concentration of cholesterol in vesicles. We conclude that relative increases in the percentage of deoxycholic acid and in bile lipid concentration, favor the partitioning of cholesterol into vesicles. In turn, this leads to an increase in the vesicular cholesterol:phospholipid molar ratio and thus to a decrease in the cholesterol microcrystal nucleation time.

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S. Hyder Hussaini

Management of minor upper gastrointestinal haemorrhage in the community using the Glasgow Blatchford Score

Roles of gall bladder emptying and intestinal transit in the pathogenesis of octreotide induced gall bladder stones.

The role of bile composition and physical chemistry in the pathogenesis of octreotide-associated gallbladder stones

Deoxycholic acid influences cholesterol solubilization and microcrystal nucleation time in gallbladder bile

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