Altered gallbladder bile composition in gallstone disease. Relation to gallbladder wall permeability

Cholelithiasis is a risk factor for colorectal adenoma

OBJECTIVES

Postcholecystectomy patients show moderate risk of colorectal cancer. However, few studies have investigated the relationship between cholelithiasis and colorectal adenoma. We examined this possibility through a combination of colonoscopy and ultrasonography in asymptomatic Japanese.

METHODS

We reviewed a subgroup of subjects drawn from a prospective annual colonoscopy screening survey. Subjects who underwent both ultrasonography and colonoscopy, and completed a questionnaire regarding lifestyle habits were entered. We investigated whether subjects with cholelithiasis or a previous cholecystectomy showed an increased risk of colorectal adenoma, as compared with subjects with normal gallbladders.

RESULTS

Data of 4,458 subjects (men 3,053, women 1,405, mean age +/- SD 46.1 +/- 8.62 yr) were analyzed. Cholelithiasis was detected in 206 subjects, 4,189 subjects had normal gallbladders, and 63 subjects had cholecystectomies. The prevalence of colorectal adenoma was 29.6% (61/206) in subjects with cholelithiasis, which was significantly higher when compared with normal subjects, with a prevalence of 17.7% (741/4,189, P < 0.001). In cholecystectomy patients, only 15.9% (10/63) developed colorectal adenomas, which was not significantly different from the control group. In a multivariate analysis controlling for sex, age, family history of colorectal cancer, alcohol, smoking, and body mass index, cholelithiasis was shown to be an independent risk factor for colorectal adenoma (adjusted OR 1.57, 95% CI 1.14-2.18). Cholelithiasis was strongly associated with multiple (> or = 3 lesions, adjusted OR 2.39, 95% CI 1.21-4.72) and left-sided colorectal adenomas (adjusted OR 1.82, 95% CI 1.28-2.59).

CONCLUSIONS

Cholelithiasis is a risk factor for colorectal adenoma.

Pathways of cholesterol crystallization in model bile and native bile

Hypersecretion of hepatic cholesterol, chronic supersaturation of bile with cholesterol and rapid precipitation of cholesterol crystals in the gallbladder from cholesterol-enriched vesicles represent the primum movens in cholesterol gallstone formation. Physical-chemical factors and pathways leading to cholesterol crystallization can be investigated in artificial model biles and ex vivo in fresh human bile. Depending on modulatory factors (i.e., lipid concentration, bile salt or phospholipid species, humidity, mucins, etc.), cholesterol can precipitate in several forms (i.e., monohydrate, anhydrous) and habits (i.e., plate-like, needle-like, intermediate arcs, filaments, tubules, spirals). Careful analysis of biliary cholesterol crystals includes biochemical analysis of precipitated crystals, polarizing quantitative light microscopy, and turbidimetric methods. In this paper, recent concepts on cholesterol crystallization in artificial model biles as well as in human bile will be reviewed.

Mechanism for the transit-induced increase in colonic deoxycholic acid formation in cholesterol cholelithiasis

BACKGROUND & AIMS

Many patients with cholesterol gallbladder stones (GBS) have a high percentage of deoxycholic acid (DCA) in gallbladder bile (all of which are in the conjugated form), probably as a result of prolonged large bowel transit times (LBTT). However, whether the prolonged LBTT increases DCA formation, solubilization, or absorption (or all 3) is not known.

METHODS

In 40 subjects (20 with GBS; age range, 24-74 years), we measured LBTT using radiopaque markers, and intestinal luminal pH by radiotelemetry. We also measured quantitative anaerobic bacteriology and the activities of 2 bile acid-metabolizing enzymes in fresh cecal aspirates obtained during clinically indicated unprepared colonoscopy, and related these results to the percentage of DCA in fasting serum measured by gas chromatography-mass spectrometry.

RESULTS

Compared with controls, GBS patients had longer LBTT (mean 23.1 +/- SEM 2.8 h vs. 36.5 +/- 3.3 h; P < 0.01); more total (2.7 +/- 0.6 x 10(9) vs. 5.9 +/- 1.5 x 10(9) cfu/mL) and Gram-positive (9.5 +/- 3.1 x 10(8) vs. 18.0 +/- 4.1 x 10(8) cfu/mL; P < 0.05) anaerobes; and greater 7alpha-dehydroxylating (7alpha-DH) activity (3.39 +/- 0.59 vs. 10.37 +/- 1.15 x 10(-4) U/mg protein) in the cecal aspirates. They also had higher intracolonic pH values (P < 0.02) and increased percentages of DCA in fasting serum (13.4% +/- 1.52% vs. 21.8% +/- 2. 19%; P < 0.005). Results of univariate and multivariate analyses confirmed that LBTT was critical in determining the percentage of DCA in serum and showed that 7alpha-DH activity and apparent distal colonic pH were also significant independent variables.

CONCLUSIONS

Slow colonic transit (more time), increased Gram-positive anaerobes (more bacteria), and greater 7alpha-DH activity (more enzyme) favor enhanced DCA formation; transit-induced increases in distal colonic luminal pH favor enhanced DCA solubilization/bioavailability; and increases in LBTT (more time) again favor DCA absorption.

Deoxycholic acid is not related to lithogenic factors in gallbladder bile

The influence of deoxycholic acid (DCA) on the factors in gallbladder bile responsible for cholesterol gallstone disease has been a controversial subject of discussion. This might be partially due to patient selection or inappropriate methods. Therefore, we investigated the relationship between the percentage of DCA and lithogenic factors in the gallbladder bile of patients with cholesterol gallstones and with normal or moderately impaired gallbladder contractility. Patients with pigment stones served as a control group. The percentage of DCA in the gallbladder bile of 20 patients with cholesterol stones (23.2%+/-6.5%; mean+/-SD) was comparable to the DCA percentage in the gallbladder bile of 11 patients with pigment stones (26.5%+/-8.5%). No correlation was seen between the DCA percentage of total bile acids and the crystal observation time, cholesterol saturation index (CSI), total protein value, mucin level, and amount of cholesterol in vesicles or crystals in the total group of patients or in the subgroups with cholesterol or pigment stones, respectively. The lack of correlation between DCA percentage and CSI was determined in native bile (r = 0.048) as well as in crystal-free bile after ultracentrifugation (r = 0.107). Our findings demonstrate that in patients with gallstones, the percentage of DCA in gallbladder bile is not related to any of the known biliary factors associated with cholesterol gallstone disease. We conclude that in patients with normal or moderately impaired gallbladder function, an elevated DCA level in the gallbladder bile is of minor pathophysiologic significance for the formation of cholesterol gallstones.

Mucus production of choledochal epithelial cells due to bile stagnation in the rat

Mucus secretion is increased by various causative agents of inflammation in the mucosa. Although mucus production of the choledochal epithelial cells (except goblet cells) has never been noted in the rat in normal physiological conditions, it is seen as an inflammatory reaction in animals with choledochoenterostomy, which brings bacteria and active digestive enzymes into the common bile duct through regurgitation of intestinal contents. It is known that stagnant bile alone can cause inflammation in the mucosa of the gallbladder in patients with aseptic acalculous cholecystitis. In this study, aseptic bile stagnation was caused by choledochal dilation made by detaching the common bile duct from the hepatoduodenal ligament in five rats, and histological changes of the choledochal epithelium were observed by light and transmission electron microscopy 17 months after the operative procedure to determine whether stagnant bile could cause mucus production in choledochal epithelial cells. Mucus production was noted in two rats by light microscopy and in all the rats by transmission electron microscopy, and so it was demonstrated that stagnant bile could give rise to this phenomenon in the rat choledochal epithelium.

Model bile and bile salts accelerate mucin secretion by cultured dog gallbladder epithelial cells

BACKGROUND & AIMS

Hypersecretion of gallbladder mucin has been proposed as a pathogenic factor in gallstone formation. We investigated whether mucin secretion is modulated by biliary constituents using normal, well-differentiated dog gallbladder epithelial cells.

METHODS

Model biles or bile salts were applied to monolayers of epithelial cells. Mucin secretion was studied by measuring the secretion of [3H]N-acetyl-D-glucosamine-labeled glycoproteins.

RESULTS

Model biles with different cholesterol saturation indices increased mucin secretion by the cells to an average 251% after 5 hours of incubation (P < 0.01). Mucin secretion remained elevated during a 24-hour period, suggesting a sustained effect on mucin secretion. There was no relation between the cholesterol or phospholipid concentration and the extent of stimulation of mucin secretion. Taurocholate caused a dose-dependent increase in mucin secretion, suggesting that bile salt was the bile component responsible for the stimulatory effect. At a concentration of 0.5 mmol/L, only the more hydrophobic bile salts taurochenodeoxycholate and taurodeoxycholate, but not the hydrophylic bile salts taurocholate and tauroursodeoxycholate, stimulated mucin secretion (P < 0.01).

CONCLUSIONS

Bile salts play an important role in the regulation of mucin secretion. A shift in the bile salt composition of bile towards the more hydrophobic bile salts may cause mucin hypersecretion, thereby initiating cholesterol gallstone formation.

Taurodeoxycholic acid stimulates rabbit gallbladder eicosanoid release

Rabbit common bile duct ligation has been shown to concomitantly increase levels of gallbladder taurodeoxycholic acid and gallbladder eicosanoid release. This study examines the hypothesis that taurodeoxycholic acid, a known chemical mediator of gallbladder inflammation, stimulates endogenous gallbladder eicosanoid release. Male New Zealand white rabbits were anesthetized, gallbladders removed and perfused in vitro with Krebs-Henseleit buffer (pH 7.4, 37 degrees C) at 1 ml/min with increasing doses of taurodeoxycholic acid (0, 10, 30 and 100 mM) added to the perfusate. The effluent was collected at 15, 30, 60 and 120 min of perfusion and assayed for 6-keto-PGF1 alpha (PGI2 metabolite), PGE2, and thromboxane B2 (TXB2) by enzyme immunoassay. Taurodeoxycholic acid increased gallbladder eicosanoid release in a dose-related manner with 6-keto-PGF1 alpha and PGE2 release 10-fold higher than TXB2. Indomethacin (1.5 mM) decreased gallbladder eicosanoid release by 50% in the gallbladders perfused with 30 mM taurodeoxycholic acid, demonstrating that the increased gallbladder eicosanoid release was due to de novo synthesis. These findings suggest that the increased release of gallbladder PGI2 and PGE2 described in animal models of cholecystitis may, in part, be related to increased gallbladder bile levels of taurodeoxycholic acid.

Effects of bile salt and phospholipid hydrophobicity on lithogenicity of human gallbladder bile

Increased biliary bile salt and phospholipid hydrophobicity may promote nucleation of cholesterol crystals and gallstone formation. We therefore compared bile salt composition (determined by gas-liquid chromatography) in patients with cholesterol (n = 35) and pigment (n = 16) gallstones (group A). Bile salt composition and cumulative bile salt hydrophobicity index were not different between both stone types. Hydrophobicity index or % of individual bile salts did not correlate with cholesterol saturation index or nucleation time. In an additional 21 cholesterol stone patients (group B) biliary bile salt and phospholipid hydrophobicity as determined by high-pressure liquid chromatography did not correlate with cholesterol saturation index or nucleation time. In both group A and group B, cholesterol stone patients with cholesterol crystals in their fresh biles had a higher % deoxycholic acid, a lower % cholic acid and a higher bile salt hydrophobicity index than crystal-negative patients. This study indicates the need for further research on the role of bile salt hydrophobicity in the pathogenesis of gallstones.

Increased intragallbladder pressure stimulates gallbladder eicosanoid release

The stimulus for increased gallbladder eicosanoid synthesis during cholecystitis is unknown. This study examines the hypothesis that increased intragallbladder pressure stimulates endogenous gallbladder eicosanoid release. Rabbit gallbladders were perfused in vitro at 1 ml/minute with oxygenated Krebs-Henseleit buffer and subjected to 0, 12 or 24 mm Hg of intraluminal gallbladder pressure. Release of 6-keto-PGF1 alpha infinity PGE2 and thromboxane B2 were measured in all groups after 15 and 30 and 60 minutes of perfusion by enzyme immunoassay and gallbladders were examined histologically. Increasing intraluminal gallbladder pressure concomitantly increased gallbladder 6-keto-PGF1 alpha release 2 fold or more at all time of perfusion and altered gallbladder mucosal architecture by increasing basolateral edema in the submucosal space. Infusion of indomethacin (10 micrograms/ml in the perfusion media) decreased 6-keto-PGF1 alpha release from the in vitro perfused gallbladders subjected to 24 mm Hg by 70%. Increased gallbladder eicosanoid release during early cholecystitis may in part be related to the physical force of increased gallbladder intraluminal pressure on the gallbladder mucosa.

Artificial bile inhibits bile salt-induced gallbladder glycoprotein release in vitro

The more hydrophobic bile salts cause rapid release of preformed gallbladder mucin and other glycoproteins by gallbladder explants in vitro, whereas the less hydrophobic bile salts elicit a lesser response. This study was designed to determine (a) whether this short-term effect was matched by a sustained increase in glycoprotein secretion over 24 hr and (b) whether it occurred when bile salts were presented in model biles rather than aqueous solution. Although 3 mmol/L taurodeoxycholate in aqueous solution increased release of preformed gallbladder glycoprotein to 843% of control values after 30 min incubation (p < 0.001), no significant increase was observed after 24 hr. The more prolonged exposure also reduced precursor uptake by 32% (p < 0.05) and inhibited synthesis of new glycoprotein by 24% (p < 0.05). Moreover, the stimulatory effect of taurodeoxycholate on release of gallbladder glycoprotein was much reduced when it was presented in model biles rather than in aqueous solution. Nor was there any difference between the effects of more hydrophobic vs. less hydrophobic bile salts when presented in model biles. Aqueous solutions of the more hydrophobic bile salts induce a rapid release of gallbladder glycoprotein in vitro but do not produce a sustained increase in glycoprotein secretion. Their effect is liable to be prevented in vivo by interaction between bile salts and the other lipids in gallbladder bile.

Gallbladder mucin, arachidonic acid, and bile lipids in patients who develop gallstones during weight reduction

BACKGROUND

Arachidonic acid (AA) and hydrophobic bile salts (BS) stimulate gallbladder mucin (GBM) secretion, which is thought to be an essential step in gallstone pathogenesis. The present study was performed to evaluate the relationship between AA, BS, and GBM in patients who develop gallstones following weight reduction.

METHODS

Eleven patients who underwent gastric bypass, developed symptomatic gallstones, and then underwent cholecystectomy were evaluated. Gallbladder bile was obtained for analysis during each procedure. Matched patients who did not develop gallstones following gastric bypass served as controls.

RESULTS

GBM increased in every patient who developed stones (mean increase: 5000%). The largest increase was observed soon after gastric bypass, and this declined curvilinearly with time. Gallbladder bile cholesterol was initially elevated but then rapidly declined before increasing back to pregastric bypass levels after weight loss was complete. No significant changes in phosphatidylcholine molecular species (including AA) or BS composition were observed following weight reduction. Concentrations of cholesterol, phospholipids, and changes in [AA] over time were each a linear function of [BS]. No relationship between GBM and any of these bile constituents was apparent.

CONCLUSIONS

These observations strongly suggest that increases in GBM, which occur with gallstone formation in humans, are not the result of alterations in biliary AA or BS composition.

The role of prostaglandin I2 and biliary lipids during evolving cholecystitis in the rabbit

BACKGROUND

Acute cholecystitis increases gallbladder prostanoid synthesis. The percent study examined the hypothesis that increased endogenous gallbladder release of prostaglandin I2 (PGI2) after bile duct ligation is caused by both increased ductal pressure and altered biliary lipids.

METHODS

Prostanoid release, biliary lipids, and in vitro fluid absorption of sham gallbladders were compared with those of gallbladders in which acute cholecystitis was induced after common bile duct ligation for 6, 24, and 72 hours.

RESULTS

Bile duct ligation for 6, 24, and 72 hours increased gallbladder PGI2 release twofold and increased gallbladder bile levels of lysolecithin and taurine-conjugated bile acids fivefold compared with sham groups (P < 0.05). In vitro gallbladder fluid absorption was decreased by 50% or more in the 6-, 24-, and 72-hour bile duct-ligated groups (P < 0.05) but was reversed by indomethacin only in the 6-hour ligated group.

CONCLUSIONS

Decreased gallbladder fluid absorption following bile duct ligation for 6 hours was caused by increased gallbladder release of PGI2. Decreased gallbladder fluid absorption following bile duct ligation for 24 and 72 hours was not a prostanoid-mediated process (not reversed by indomethacin) but was associated with increased bile levels of proinflammatory biliary lipids.

Bile acid and phospholipid fatty acid composition in bile of patients with cholesterol and pigment gallstones

It has been previously reported that patients with cholesterol gallstones have increased biliary deoxycholate and arachidonate content as compared with normal subjects without gallstones. Increased biliary deoxycholate and arachidonate content might be a primary factor in the pathogenesis of cholesterol gallstones or merely an epiphenomenon due to the presence of gallstones. We therefore compared biliary bile acid composition in 46 patients with cholesterol gallstones and 22 patients with pigment stones. In addition, biliary phospholipid fatty acid composition was determined in 44 of these patients (30 cholesterol and 14 pigment stone patients). No significant differences were detected. In particular, the percentage deoxycholic acid (mean +/- SD: 20.3 +/- 8.8% and 21.5 +/- 10.9% respectively) and the percentage arachidonic acid (4.4 +/- 2.0% and 4.5 +/- 2.2%, respectively) were very similar. A significant correlation between age and biliary cholesterol saturation index was found only for the group of patients with pigment stones (R = 0.52, p less than 0.02). In conclusion, the present study does not support a primary role for increased biliary deoxycholic acid or arachidonic acid in the pathogenesis of cholesterol gallstones.

Pathophysiology of acute obstructive cholecystitis: implications for non-operative management

Recent research suggests that disturbances in gallbladder mucosal functions are important in the initiation of acute cholecystitis and its progression. Prostaglandins have pathophysiological significance and prostaglandin synthesis inhibitors such as indomethacin inhibit fluid secretion by gallbladder mucosa, reduce distension and relieve pain. Nerves in the gallbladder wall are involved in disturbed mucosal function, and the benefits of opiates may derive from reduction of active fluid secretion in the inflamed and obstructed gallbladder as well as from central analgesic effects.

Ionic flux and mucosal ultrastructure in the rat bile-pancreatic duct. Effect of bile salt perfusion on duct integrity

The property of the pancreatic ductal system that restricts free ionic diffusion has been termed the "pancreatic duct mucosal barrier," damage to which may be important in the pathogenesis of acute gallstone pancreatitis. The bile-pancreatic duct of the rat (BPD) was perfused in situ with a standard ionic solution. The normal duct was permeable to both chloride and bicarbonate ions, and flux (JCl-, JHCO3-) appeared to occur by passive ionic diffusion. Measurement of absolute ionic flux and transductal potential difference (PD) gave control values of JCl-, +0.92 +/- 0.15 mumol/cm/hr; JHCO3-, -1.71 +/- 0.12 mumol/cm/hr; PD -2.3 +/- 0.20 mV. The preparation was stable over the experimental period, and the results obtained were reproducible between animals. Glycodeoxycholate compromised the integrity of the BPD with an increase in ionic flux and a reduction in PD with corresponding alterations in mucosal ultrastructure. Increasing concentrations of bile salt produced more severe damage to the BPD. The BPD of the rat is therefore analogous to the pancreatic duct of the cat in possessing a mucosal barrier, and the barrier is damaged by bile salts. This preparation may be useful for studying pancreatic duct integrity, a concept of importance in the pathogenesis of acute gallstone pancreatitis.

Fecal bile acid excretion pattern in cholecystectomized patients

The fecal bile acid excretion pattern was investigated in 25 cholecystectomized and 26 noncholecystectomized patients as a measure for the exposure of the colonic mucosa to bile acids. Separation of free, conjugated, and sulfated bile acids was achieved by liquid-gel chromatography using DEAP Sephadex LH-20 and quantification of individual bile acids by gas-liquid chromatography. Total bile acid concentration was higher in cholecystectomized (5.33 +/- 0.71 mg/g) than in noncholecystectomized patients (3.69 +/- 0.65 mg/g). Deoxycholic acid excretion was elevated in cholecystectomized patients in three aspects: the concentration of deoxycholic acid was higher (2.92 +/- 0.39 mg/g and 1.71 +/- 0.35 mg/g, respectively), its percentage proportion of total bile acids was increased (53.9 +/- 2.8% and 41.4 +/- 3.1%, respectively), and its daily output was twice as large as that in patients without previous cholecystectomy (63.2 +/- 11.5 and 32.9 +/- 5.9 mg/day, respectively).

Control of biliary phospholipid secretion. Effect of continuous and discontinuous infusion of taurocholate on biliary phospholipid secretion

A major determinant of biliary lipid secretion is bile-salt secretion. Taurocholate (TC), a micelle-forming bile salt, was infused continuously at different rates in both isolated perfused livers and biliary-fistula rats. In both of these systems, infusion of TC brought about an elevated secretion of phosphatidylcholine for the duration of the TC infusion period. Initial phospholipid/bile-salt ratios in the bile were higher in the whole-animal model than in isolated livers, but at the higher infusion rates both secreted approx. 6 mol of phospholipid for every 100 mol of bile salt. The secretion of phospholipid, which was maintained even at high rates of bile-salt infusion, suggest a continuous and regulated phospholipid supply and secretion mechanism. In contrast, however, multiple short pulses of TC to the perfused liver, which brought about relatively equal biliary bile-salt output pulses, did not bring about equal phospholipid outputs, since the phospholipid peak size declined with each bile-salt pulse. These experiments taken together suggest either that a threshold (intracellular) bile-salt concentration may be required to 'switch-on' the phospholipid supply and that it may need to be maintained for continuous biliary phospholipid supply to the canalicular membrane.

The role of bile acids in colonic carcinogenesis

Several line of evidence suggest that bile acids may be implicated in the pathogenesis of colonic cancer. A high consumption of fat and animal protein and a low dietary intake of fiber have been shown to be related to the incidence of colonic cancer. From these epidemiologic observations the hypothesis was proposed that the correlation between diet and colon cancer might be explained by the involvement of bile acids. Populations at a high risk of developing cancer were shown to have an increased excretion both of total and bacterially modified bile acids in their feces. Animal studies demonstrated a cocarcinogenic effect of bile acids and experimental diets containing large amounts of fat did not only induce an increased bile acid excretion but also an enhanced tumor formation in the colon. Furthermore, microbial in vitro tests showed a comutagenic activity of secondary bile acids. However, case control studies comparing the fecal bile acid excretion pattern in colonic cancer patients and control subjects failed to show such a clear relationship, which might be explained by rather similar dietary habits within one population and individual differences in sensitivity to environmental factors contributing to the tumor development. Cholecystectomy, leading to an increased exposure of bile acids to the intestinal microflora, has been suggested as a predisposing factor for the development of colonic cancer, but the results of experimental and epidemiologic studies so far are rather inconsistent.(ABSTRACT TRUNCATED AT 250 WORDS)

The possible carcinogenic effect of cholecystectomy. No postoperative increase in the proportion of secondary bile acids

In consecutive patients with gallstones in well-functioning gallbladders, duodenal bile was sampled before and 2 to 3 months after cholecystectomy. The preoperative and postoperative bile acid patterns were compared. Cholecystectomy resulted in a significant shift from cholic- to chenodeoxycholic acid. This shift could help to explain the low incidence of recurrent common duct stones. The percentage of secondary bile acids showed very little change. An increase of the mean preoperative value of 3.9 percentage points or more was improbable (P = 0.025). This finding refutes the hypothesis that cholecystectomy could lead to colonic cancer via an increase in the proportion of secondary bile acids. An alternative hypothesis is proposed for the reported high incidence of previous cholecystectomy in colonic cancer. Both gallstones and cancer of the colon may be associated with high levels of secondary bile acids.

Mucosal alkaline phosphatase and bile lipids in the gallbladder in cholecystitis

Histochemically, alkaline phosphatase was localised in epithelial brush-border and capillary endothelium of the lamina propria in 41 gallbladders studied. Three distinct patterns of the brush-border enzyme distribution were observed, namely, complete delineation, patchy localisation and a brush-border totally devoid of enzyme activity. Where no histochemical activity was found, biliary chenodeoxycholate was 50 per cent. higher than in cases of patchy distribution and twice as high as in cases with complete staining of the brush-border. Conversely, biliary cholate levels were significantly higher in completely stained cases. Biliary cholesterol was higher in the cases with no histochemical activity and this was reflected in a significantly higher lithogenic index. Significant quantities of cholesterol esters were found in bile from the focal activity group only. Total alkaline phosphatase activity assayed in gallbladders from 112 patients with cholecystitis and/or lithiasis showed that activity was significantly lower in patients with pigment stones than patients with cholecystitis and/or cholesterol stones. This activity was not related to biliary lipid composition in the 77 bile samples analysed. This evidence indicates that biliary lipid composition is associated with the histochemical distribution of alkaline phosphatase in gallbladder mucosa.