Brief Article Open Access
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World J Gastroenterol. Sep 28, 2011; 17(36): 4118-4123
Published online Sep 28, 2011. doi: 10.3748/wjg.v17.i36.4118
Does the bile duct angulation affect recurrence of choledocholithiasis?
Dong Beom Seo, Byoung Wook Bang, Seok Jeong, Jung Il Lee, Jin-Woo Lee, Division of Gastroenterology, Department of Internal Medicine, Inha University School of Medicine, Incheon 400-711, South Korea
Don Haeng Lee, Division of Gastroenterology, Department of Internal Medicine and Center for Advanced Medical Education by BK21 Project, Inha University School of Medicine, and Utah-Inha DDS and Advanced Therapeutics Research Center, Incheon 400-711, South Korea
Shin Goo Park, Department of Occupational and Environmental Medicine, Inha University School of Medicine, Incheon 400-711, South Korea
Yong Sun Jeon, Department of Radiology, Inha University School of Medicine, Incheon, 400-711, South Korea
Author contributions: Seo DB and Bang BW wrote the paper; all authors performed research and collected the data; Park SG analyzed the data; Jeong S and Lee DH reviewed the paper; Jeon YS, Lee JI, Lee JW provided technical support and advice.
Supported by An Inha University Research Grant
Correspondence to: Don Haeng Lee, MD, Department of Internal Medicine, Inha University Hospital, 7-206, 3-Ga, Sinheung-Dong, Jung-Gu, Incheon 400-711, South Korea. ldh@inha.ac.kr
Telephone: +82-32-8902548 Fax: +82-32-8902549
Received: September 26, 2010
Revised: March 24, 2011
Accepted: March 31, 2011
Published online: September 28, 2011

Abstract

AIM: To investigate whether bile duct angulation and T-tube choledochostomy influence the recurrence of choledocholithiasis.

METHODS: We conducted a retrospective study inclu-ding 259 patients who underwent endoscopic sphincterotomy and cholecystectomy for choledocholithiasis between 2000 and 2007. The imaginary line was drawn along the center of the bile duct and each internal angle was measured at the two angulation sites of the bile duct respectively. The values of both angles were added together. We then tested our hypothesis by examining whether T-tube choledochostomy was performed and stone recurrence occurred by reviewing each subject’s medical records.

RESULTS: The overall recurrence rate was 9.3% (24 of 259 patients). The mean value of sums of angles in the recurrence group was 268.3°± 29.6°, while that in the non-recurrence group was 314.8°± 19.9° (P < 0.05). Recurrence rate of the T-tube group was 15.9% (17 of 107), while that of the non T-tube group was 4.6% (7 of 152) (P < 0.05). Mean value of sums of angles after T-tube drainage was 262.5°± 24.6° and that before T-tube drainage was 298.0°± 23.9° in 22 patients (P < 0.05).

CONCLUSION: The bile duct angulation and T-tube choledochostomy may be risk factors of recurrence of bile duct stones.

Key Words: Choledocholithiasis, Common bile duct, Cholecystectomy, Recurrence, Endoscopic retrograde cholangio pancreatography



INTRODUCTION

Since its introduction in 1974, endoscopic sphincterotomy (EST) has become a well established therapeutic method for the extraction of common bile duct (CBD) stones[1,2]. In previous studies of EST, 4%-24% of patients experienced recurrent CBD stones during follow-up intervals of up to 15 years[3-5]. The suggested causes of recurrent bile duct stones after EST are bile duct inflammation, papillary stenosis, dilated common bile duct, peripapillary diverticulum, reflux of the duodenal contents into the bile duct, and foreign bodies within the bile duct[6,7]. After EST, the biliary sphincter is rendered permanently insufficient[8]. The loss of this physiologic barrier between duodenum and biliary tract results in duodenocholedochal reflux and bacterial colonization of the biliary tract[9,10]. The presence of bacteria in the biliary system might lead to late complications after EST. These complications may include recurrence of CBD stones from deconjugation of bilirubin by bacterial enzymes[11], inflammatory changes of the biliary and/or hepatic system[12,13], recurrent ascending cholangitis[14], and even malignant degeneration[13,15].

Bile stasis may be one of the possible mechanisms of stone recurrence[16]. If bile flow can be decreased by the bile duct angulation, it may be a risk factor of stone recurrence. In a previous study, it was disclosed that in treatment of CBD stones, a T-tube drainage group had a higher recurrence rate of stones than either a choledochoduodenostomy group or an EST group, although their accurate mechanism was not elucidated[17]. It was also reported that the angulation of the extrahepatic bile duct-so called “the elbow sign”-occurred as a sequela of T-tube drainage[18]. Therefore, we investigated whether draining the T-tube changes configuration of the extrahepatic bile duct significantly and then whether bile duct deformity affects recurrence of CBD stones.

MATERIALS AND METHODS
Patient selection

All patients who were treated for choledocholithiasis by means of endoscopic retrograde cholangiopancreatography (ERCP) with EST between January 2000 and December 2007 in our institution were recruited. Their medical records were retrospectively reviewed. Among them, patients who met the following criteria were selected: (1) complete clearance of the bile duct stones was achieved; (2) cholecystectomy performed; (3) absence of bile duct stricture; (4) absence of concurrent hepatolithiasis; (5) absence of coexisting malignant neoplasm; and (6) absence of coexisting severe medical disease. Consequently, in total 259 patients were enrolled in the study.

For all the patients, the following data were collected: gender, age, recurrence, presence of periampullary diverticulum, maximal CBD diameter and presence of T-tube drainage. We divided them into two groups; recurrent and non-recurrent groups, and the sum of extrahepatic bile duct angles and maximal CBD diameter between both groups was compared. EST was performed completely by traction-type or needle-knife sphincterotome and the bile duct stones were extracted with basket and/or stone-retrieval balloon catheters. After extraction of CBD stones, we performed a regular check-up on each patient at the outpatient department base, and considered absence of symptoms of biliary colic or cholangitis episode as absence of recurrence by using telephone interviews in patients who were missed.

Periampullary diverticulum

Periampullary diverticulum was defined as the presence of a diverticulum within a 2-cm radius from ampulla of Vater. We could identify whether periampullary diverticulum was present or not in 231 of the subjects. The information was missing from the medical records of the remaining patients. We divided patients into two groups: non-periampullary diverticulum and periampullary diverticulum groups, and the recurrence rate between the two groups was compared.

Measurement of bile duct angulation

There were films of acceptable quality, taken in the prone position during ERCP. When the exrahepatic bile duct was deformed, the number of its angulation site was one or two in most patients. The angles were measured at the intersection of imaginary lines drawn down the center of the bile duct. Its intersection did not necessarily occur within the lumen of the duct, particularly where angulation took the form of a gentle curve. Each internal angle was measured at the two angulation sites of the proximal and distal bile duct level respectively by one experienced radiologist (Figure 1). The values of both angles were added together to estimate the grade of angulation. The smaller sum of angles implies more angulation.

Figure 1
Figure 1 Cholangiographic configuration of (A) usual extrahepatic bile duct and (B) deformed bile duct. The imaginary line was drawn along the center of the bile duct and each internal angle was measured at the angulation of the proximal (a) and distal (b) bile duct level respectively. The values of both angles were added together (a + b).
T-tube choledochostomy

T-tube drainage was performed during the cholecystectomy when the bile duct was injured surgically or when a bile duct stone remained after EST. We divided patients into two groups; T-tube drainage (107 patients) and non-T-tube drainage group (152 patients). The recurrence rate in each group and the sum of angles, especially the sum of the angles before and after T-tube drainages in 22 patients whose films of ERCP before and after T-tube drainage were available among T-tube drainage group, were determined. We compared the recurrence rate and sum of angles between the T-tube drainage group and the non-T-tube drainage group, and evaluated the change of the sum of angles before and after the T-tube drainages in 22 patients to find the influence of T-tube drainage on bile duct configuration (Figure 2).

Figure 2
Figure 2 The bile duct angulation caused by T-tube choledochostomy. A: Extrahepatic bile duct configuration before T-tube choledochostomy; B: Bile duct configuration during T-tube drainage; C: Bile duct configuration altered after T-tube drainage. This change of cholangiographic findings showed that T-tube drainage would have induced bile duct angulation.
Maximal transverse common bile duct diameter

We defined transverse diameter of the CBD as a diameter measured in the line which forms a right angle to an imaginary line drawing down along the center of the CBD lumen. We measured the maximal transverse diameter of the CBD in all subjects and corrected for the magnification, with the external diameter of the distal end of the duodenoscope as a reference. We also evaluated the recurrence rate according to the CBD diameter.

Statistical analysis

Categorical variables (gender, presence of periampullary diverticulum and presence of T-tube drainage) were compared by chi-square test or Fisher exact test. Continuous variables (age, CBD diameter, sum of angle) were analyzed using the Student t test when the variables were normally distributed or by using the Mann Whitney U test for non-normal distribution. Significant predictors for choledocholithiasis recurrence identified by univariate analyses were included in a multiple logistic regression model to determine the most significant risk factors for recurrence of the bile duct stones. For multivariate analysis, we categorized continuous variables into two subgroups: age (< 65 years vs≥ 65 years), sum of angle (< 270°vs≥ 270°), and maximal transverse CBD diameter (< 13 mm vs≥ 13 mm).

Statistical analysis were conducted using SPSS (Statistical Package for the Social Sciences) computer program (version 14.00).

RESULTS

Two hundred and fifty-nine patients were included in the study. Median age was 58 years (range, 17-85 years). There were 132 (50.9%) women and 127 (49.1%) men. Median follow-up period was 47.9 mo (6-101 mo). The results of univariate analyses for recurrence of bile duct stones in relation to each factor were presented in Table 1.

Table 1 Univariate analysis of risk factors for recurrent bile duct stones n (%).
VariableNon recurrence group(n = 235)Recurrence group(n = 24)P value
Age (yr)57.5 ± 15.262.4 ± 11.60.064
Gender (M/F)116/11911/130.742
Common bile duct diameter (mm)115.8 ± 6.220.6 ± 7.60.001
Sum of angle (°)1314.9 ± 20.0268.3 ± 29.60.001
T-tube drainageNo  145 (95.4)7 (4.6)0.002
Yes90 (84.1)17 (15.9)
Periampullary diverticulum2No111 (93.3)8 (6.7)0.091
Yes97 (86.6)15 (13.4)
Recurrence rate

The overall recurrence rate of CBD stones was 9.3% (24 of 259 patients). The recurrence rate was 8.7% (11 of 127 patients) in males and 9.9% (13 of 132 patients) in females respectively.

A total of 13.4% (15 of 112) of the patients with periampullary diverticulum developed recurrent stones, while 6.7% (8 of 119) of those without diverticulum showed recurrence. There was no evidence that the periampullary diverticulum exerted a significant influence on the recurrence of bile duct stones statistically (P = 0.091). Seventeen of 107 patients (15.9%) who underwent T-tube drainage had a recurrence, compared with 7 of 152 patients (4.6%) without T-tube drainage, and the presence of T-tube drainage was shown to be statistically associated with the recurrence of CBD stones (P = 0.002).

Bile duct angulation

The mean value of the sum of angles in the non-recurrence group was 314.9°± 20.0°, while the mean sum of angles in the recurrence group was 268.3°± 29.6° (P = 0.001). These results mean that the more angulation in the extrahepatic bile duct could develop, the greater recurrence of the stone.

common bile duct diameter

The mean maximal transverse CBD diameter in the non-recurrence group was 15.8 ± 6.2 mm while the mean value of CBD in the recurrence group was 20.6 ± 7.6 mm. CBD diameter was a significant risk factor for recurrence on univariate analysis (P = 0.001).

T-tube drainage

The mean value of sums of angles at the cholangiogram before T-tube choledochostomy was 311.7°± 22.4°

in T-tube group, while that in the non T-tube group was 314.9°± 19.3° (P = 0.232). On the other hand, the mean value of sums of angles before T-tube drainage was 298.0°± 3.9° , while after T-tube drainage, it was 262.5°± 24.6° in some patients (n = 22) who underwent ERCP after removal of the T-tube among members of the T-tube group (P = 0.001). Consequently, these results suggested that T-tube drainage may affect bile duct angulation.

Multivariate analysis

A univariate analysis revealed that CBD diameter, T-tube drainage and sum of angle were significant risk factors for the recurrence of choledocholithiasis (P < 0.05). But multivariate analyses of all variables that reached a P value of less than 0.1 in univariate analysis were performed. On multivariate analysis, angulation was the only independent risk factor for the recurrence of choledocholithiasis (Table 2).

Table 2 Adjusted odds ratio of risk factors for recurrent bile duct stones.
Recurrence of bile duct stones
VariablesOdds ratioP value95% CI1
Periampullary diverticulum2.6480.1070.809-8.668
Common bile duct diameter3.0110.1520.564-11.700
T-tube drainage2.5780.1190.785-8.470
Sum of angle (°)17.8970.0005.083-63.015
Age ≥ 65 years0.3720.1020.113-1.219
DISCUSSION

ERCP with EST is the therapeutic procedure of choice for CBD stones. Early complications of EST include acute pancreatitis, bleeding, duodenal perforation, and acute cholangitis. On the other hand, its late complications include recurrence of stones and papillary stenosis[19,20]. In long-term follow-up studies after EST, the recurrence rate of CBD stones in patients with cholecystectomy has been in the range of 4% to 24%[3-5]. However, the theory that loss of sphincter function after EST leads to formation of recurrent CBD stones seems to need validation. Several authors have demonstrated that the biliary tree becomes infected with bacteria after EST[9,10] and there is substantial evidence that bacteria play an essential role in the formation of brown pigment stones. Some bacterial species, especially Escherichia coli[21], produce enzymes such as β-glucuronidase that are known to precipitate bilirubin and calcium[11], the main components of brown pigment stone[22]. Furthermore, electron microscopy studies have demonstrated that bacteria are present in the core of brown pigment stone whereas they are absent in cholesterol and black pigment stone[14,23,24].

Apart from bacterial infection, biliary stasis is thought to be an important factor in the pathogenesis of recurrent bile duct stones[6,16,25]. The markedly dilated bile duct is often contaminated with bacteria and also leads to bile stasis, which is thought to be an important factor in the pathogenesis of recurrent stones. The association between dilated CBD and stone recurrence has been reported in previous studies of post-EST patients[26,27]. In the univariate analysis of our study, in the recurrence group (n = 21, mean CBD diameter = 20.6 mm ± 7.6 mm) there was greater dilation in the extrahepatic bile duct than in the non-recurrence group (n = 200, mean CBD diameter = 15.8 mm ± 6.2 mm) (P = 0.001). Therefore dilated bile ducts may be another important risk factor of CBD stone recurrence by causing impaired bile flow.

Previous studies of the peripapillary diverticulum in relation to recurrence of bile duct stone have disclosed inconsistent results[28-31]. Biliary stasis in patients with diverticulum could be caused by either mechanical factors or the presence of coexisting motility disorders involving the sphincter of Oddi[28-31]. Theoretically, the effect of the diverticulum on bile flow might not completely disappear after the EST. In our study, the recurrence rate of the diverticulum group (n = 112, 13.4%) was higher than that of the non-diverticulum group (n = 119, 6.7%), but the result was not statistically significant (P = 0.91). Hence further studies on periampullary diverticulum as a risk factor of stone recurrence might be needed.

Bile duct angulation may cause stasis of bile flow. Warren suggested that angulation of CBD is associated with choledocholithiasis[32]. Mean cholangiographic angulation of CBD differed significantly between patients with cholelithiasis only and those with choledocholithiasis in this previous series. The degree of ductal angulation may be a useful consideration in development of bile duct stones. Recently two reports showed angulation of the CBD contributes to biliary stasis, and hence predisposes to recurrent choledocholithiasis[33,34]. In the current study, the recurrence group (n = 24, mean of sums of angles = 268.3°± 29.6°) was more angulated in the extrahepatic bile duct than the non-recurrence group (n = 235, mean of sum of angles = 314.9°± 20.0°) (P < 0.05). In multivariate analysis, the sum of angles was the only independent risk factor of CBD stone recurrence (Table 2).

There was a previous study describing long-term results of medical or surgical treatment in patients with choledocholithiasis[17]. Two hundred and thirteen patients were treated for CBD stones, and then the patients were divided into 3 groups based on the treatment modality: group 1, choledocholithotomy and T-tube choledochostomy; group 2, choledochoduodenostomy; and group 3, endoscopic sphincterotomy. Recurrence of choledocholithiasis was examined for each type of treatment modality. This study suggested that patients treated by T-tube drainage had more recurrent bile duct stones than those in the choledochoduodenostomy or EST groups, but accurate mechanisms were not clearly demonstrated.

Lee and Burhenne suggested that extrahepatic bile duct angulation was caused by T-tube drainage[18]. They observed lateral distortion in the shape of the bile ducts in a considerable number of patients with an indwelling T-tube such that an angle measured between the proximal and distal parts of the duct, centered at the site of T-tube drainage insertion, decreased to a range of 60 to 158. They have called this finding the “elbow sign”. In the current study, the mean sum of angles before T-tube drainage was 298.0°± 23.9°, while the mean value of angles after T-tube drainage was 262.5°± 24.6° in the same patients. The sum of the angles in the CBD changed after T-tube drainage by 35.5° and was statistically significant (P < 0.05). Furthermore, the extrahepatic bile duct deformity caused by T-tube drainage influenced the recurrence rate of CBD stones. The recurrence rate of the non-T-tube drainage group was 4.6%, while the recurrence rate of the T-tube drainage group was 15.9% (P < 0.05). It is presumed that T-tube placement could introduce local adhesion[33], which, in turn, influences the angulation of the bile duct and then leads to recurrence of bile duct stones as one of the mechanisms.

Our study has some limitations. First, this study is retrospective. Second, we did not prove recurrence with repeat ERCP or cholangiogram in every patient. It may have ascertainment bias. Third, we should estimate the three dimensional image, but we measure bile duct angulation by two-dimensional fluoroscopic imaging. This may show some difference from real angulation. Practically, it is difficult to get three dimensional bile duct images. Fourth, there may be several possible confounders which we did not consider. Medication such as ursodeoxycholic acid and the time of drainage of contrast from the bile duct were not reported in our series. On account of these limitations, it is difficult to be absolutely certain that our specific risk factors were solely responsible for the recurrence of choledocholithiasis.

In conclusion, subsequent to endoscopic biliary sph-incterotomy and clearance of bile duct stones, three significant risk factors for the recurrence of the stone were identified on univariate analyses, although bile duct angulation was the only risk factor for recurrence of choledocholithiasis in the multivariate analysis. Patients with a more angulated and dilated bile duct, and a history of T-tube choledochostomy developed stone recurrence more frequently. T-tube choledochostomy performed after cholecystectomy were prone to recurrence of stones by an influence on bile duct angulation.

COMMENTS
Background

After endoscopic sphincterotomy (EST), 4%-24% of patients might experience recurrent choledocholithiasis. The risk of stone recurrence is an important issue, especially for relatively young patients. Bile duct angulation may be a risk factor of stone recurrence by decreasing bile flow.

Research frontiers

The risk factors for true recurrence of bile duct stones after EST are suboptimally defined. Until now, infection along the bile duct and bile stasis were thought to contribute to the recurrence.

Innovations and breakthroughs

Recent several studies showed the association between bile duct angulation and recurrence of stones. The authors added more information about that. In addition, the authors suggested that T-tube choledochostomy influences the recurrence of choledocholithiasis by angulating the bile duct.

Applications

This article provides important data about the risk factors of choledocholithiasis recurrence. By identifying risk factors for stone recurrence, people can improve outcomes by prophylactic treatments or earlier intervention.

Peer review

This is an interesting study that investigated the risk factors of recurrence of common bile duct stones. This study suggested an association between T-tube drainage and recurrence of choledocholithiasis by analyzing the angulation of the common bile duct before and after T-tube drainage.

Footnotes

Peer reviewers: Giuseppe Currò, MD, University of Messina, Via Panoramica, 30/A, 98168 Messina, Italy; Beata Jolanta Jablońska, MD, PhD, Department of Digestive Tract Surgery, University Hospital of Medical University of Silesia, Medyków 14 St. 40-752 Katowice, Poland

S- Editor Sun H L- Editor O’Neill M E- Editor Zhang DN

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