Case Control Study Open Access
Copyright ©The Author(s) 2021. Published by Baishideng Publishing Group Inc. All rights reserved.
World J Clin Cases. Sep 16, 2021; 9(26): 7671-7681
Published online Sep 16, 2021. doi: 10.12998/wjcc.v9.i26.7671
Common bile duct morphology is associated with recurrence of common bile duct stones in Billroth II anatomy patients
Xu Ji, Wen Jia, Qian Zhao, Yao Wang, Shu-Ren Ma, Lu Xu, Ying Kan, Yang Cao, Bao-Jun Fan, Zhuo Yang, Department of Digestive Endoscopy, General Hospital of Northern Theater Command, Shenyang 110840, Liaoning Province, China
Xu Ji, Qian Zhao, Lu Xu, Postgraduate College, Dalian Medical University, Dalian 116044, Liaoning Province, China
Yao Wang, Bao-Jun Fan, Postgraduate College, Liaoning University of Traditional Chinese Medicine, Shenyang 110847, Liaoning Province, China
Ying Kan, Yang Cao, Postgraduate College, Jinzhou Medical University, Jinzhou 121001, Liaoning Province, China
ORCID number: Xu Ji (0000-0003-3174-3918); Wen Jia (0000-0002-5969-3695); Qian Zhao (0000-0002-5031-9656); Yao Wang (0000-0002-1448-6254); Shu-Ren Ma (0000-0003-4966-2622); Lu Xu (0000-0001-6179-9758); Ying Kan (0000-0001-6662-8798); Yang Cao (0000-0001-9963-326X); Bao-Jun Fan (0000-0002-7065-0530); Zhuo Yang (0000-0001-8337-8380).
Author contributions: Ji X and Yang Z contributed to drafting the final manuscript; all authors contributed to study design, data collection, statistical analysis, and reading and approving the final manuscript.
Institutional review board statement: The study was reviewed and approved by the General Hospital of Northern Theater Command Institutional Review Board.
Informed consent statement: Written informed consent was obtained from the patients or their guardian prior to the study.
Conflict-of-interest statement: The authors declare that they have no conflict of interest to disclose.
Data sharing statement: No additional data are available.
STROBE statement: The authors have read the STROBE Statement—checklist of items, and the manuscript was prepared and revised according to the STROBE Statement—checklist of items.
Open-Access: This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/Licenses/by-nc/4.0/
Corresponding author: Zhuo Yang, MD, Chief Doctor, Department of Digestive Endoscopy, General Hospital of Northern Theater Command, No. 83 Wenhua Road, Shenyang 110840, Liaoning Province, China. yangzhuocy@163.com
Received: April 29, 2021
Peer-review started: April 29, 2021
First decision: May 26, 2021
Revised: June 20, 2021
Accepted: July 29, 2021
Article in press: July 29, 2021
Published online: September 16, 2021
Processing time: 134 Days and 6.5 Hours

Abstract
BACKGROUND

Endoscopic retrograde cholangiopancreatography (ERCP) is the primary choice for removing common bile duct (CBD) stones in Billroth II anatomy patients. The recurrence of CBD stones is still a challenging problem.

AIM

To evaluate CBD morphology and other predictors affecting CBD stone recurrence.

METHODS

A retrospective case-control analysis was performed on 138 CBD stones patients with a history of Billroth II gastrectomy, who underwent therapeutic ERCP for stone extraction at our center from January 2011 to October 2020. CBD morphology and other predictors affecting CBD stone recurrence were examined by univariate analysis and multivariate logistic regression analysis.

RESULTS

CBD morphology (P < 0.01) and CBD diameter ≥ 1.5 cm (odds ratio [OR] = 6.15, 95% confidence interval [CI]: 1.87-20.24, P < 0.01) were the two independent risk factors. In multivariate analysis, the recurrence rate of patients with S type was 16.79 times that of patients with straight type (OR = 16.79, 95%CI: 4.26-66.09, P < 0.01), the recurrence rate of patients with polyline type was 4.97 times that of patients with straight type (OR = 4.97, 95%CI: 1.42-17.38, P = 0.01), and the recurrence rate of S type patients was 3.38 times that of patients with polyline type (OR = 3.38, 95%CI: 1.07-10.72, P = 0.04).

CONCLUSION

CBD morphology, especially S type and polyline type, is associated with increased recurrence of CBD stones in Billroth II anatomy patients.

Key Words: Endoscopic retrograde cholangiopancreatography; Common bile duct stones; Recurrence; Billroth II anatomy; Common bile duct morphology; Risk factors

Core Tip: Common bile duct (CBD) stone recurrence in Billroth II anatomy patients is challenging, and CBD morphology had never been noticed as a potential risk factor for CBD stone recurrence. In this study, CBD morphology was identified to be the independent risk factor for CBD stone recurrence in Billroth II anatomy patients. S type and polyline type were associated with an increased risk of recurrent CBD stones. Periodic surveillance and prophylactic therapy is recommended for Billroth II anatomy patients with S type and polyline type after successful endoscopic retrograde cholangiopancreatography.



INTRODUCTION

As endoscopic retrograde cholangiopancreatography (ERCP) is widely performed for the treatment of choledocholithiasis in Billroth II anatomy patients, the complications after ERCP gradually reveal. The recurrence of choledocholithiasis, as one of the long-term complications, is still a challenging problem[1-4]. As reported, the recurrence rate of common bile duct (CBD) stones after therapeutic ERCP was 2%-22%[5-8], and once CBD stones recurred, the next recurrence rate increased with the number of recurrences[9].

Patients with surgically altered anatomy, such as a Billroth II gastrectomy, might have an altered CBD morphology, which makes the operation of ERCP more complicated, the success rate decrease, and the recurrence rate increase[10]. Thus, we speculated that there is a potential association between CBD morphology and CBD stone recurrence. By searching the literature, we found potential factors for stone recurrence, including age, periampullary diverticulum (PAD), CBD diameter, CBD stone diameter, multiple CBD stones, endoscopic biliary sphincterotomy (EST), endoscopic papillary large balloon dilation (EPLBD), endoscopic papillary balloon dilation (EPBD), EST with balloon dilation (ESBD), cholecystectomy, and CBD angulation[11-15]. In the present study, CBD morphology was defined as the cholangiogram morphology from the confluence of the left and right hepatic ducts to the distal CBD entering the duodenum. We classified the CBD morphology into straight type (Figure 1A and B), S type (Figure 1C and D), and polyline type (Figure 1E and F) and explored whether different shapes of CBD and other factors influence CBD stone recurrence after successful endoscopic therapy in Billroth II anatomy patients.

Figure 1
Figure 1 Common bile duct morphology. A and B: Straight type; C and D: S type; E and F: Polyline type.
MATERIALS AND METHODS
Patients

Stone recurrence was defined by the presence of CBD stones at least 6 mo after previous CBD stones were entirely removed by ERCP. At least two stone recurrences defined multiple recurrences after the first ERCP[16]. Patients who visited our hospital had their CBD stones confirmed by abdominal computed tomography and ERCP. From January 2011 to October 2020, 629 patients with a history of Billroth II gastrectomy underwent successful ERCP for CBD stones at the General Hospital of Northern Theater Command. The exclusion criteria were as follows: (1) Patients without specific stones during the ERCP; (2) patients with tumors of the duodenal papilla, CBD, gallbladder, or liver; (3) patients who had not removed their stones completely after the first ERCP; and (4) patients with incomplete clinical data. A total of 138 patients who underwent complete stone removal were enrolled, and 27 of them recurred up.

ERCP procedure

All ERCP procedures were performed by experienced endoscopists with at least 500 cases. In our institution, prophylactic antibiotics are used in patients without evidence of cholangitis before ERCP. ERCP was served with a side-viewing duodenoscope (JF-240/260, TJF-240/260; Olympus Medical, Tokyo, Japan), a forward-viewing gastroscope (Olympus GIF-H260/Q260), or a forward-viewing colonoscope (Olympus CF-H260/Q260) after the patient was sedated with intravenous dexmedetomidine, midazolam, and propofol in the left lateral decubitus position. Briefly, the operator completed the wire-guided biliary cannulation with a double-lumen sphincterotome. Precut sphincterotomy or double-wire technique was prepared for difficult biliary cannulation. As selective biliary cannulation was achieved, depending on CBD stones, the operator executed the therapeutic intervention, which included EST, ESBD, and EPLBD. On cholangiogram, the CBD diameter and CBD stone diameter were determined by calculation with the ratio to the diameter of the duodenoscope, and the CBD morphology was determined by the operator before stone removal. After the therapeutic intervention, the operator chose to remove stones with a retrieval balloon and/or a basket with or without mechanical lithotripsy. The CBD stones were regarded as completely removed when all the present endoscopists agreed on the absence of a stone. The CBD morphology was confirmed again by the other operator on the last cholangiogram.

Parameter measurements on cholangiograms

Assessed factors included the CBD morphology, the diameter of CBD, and the largest stone, which were measured from the cholangiogram under the condition of complete contrast injection, with the patient placed in the left lateral decubitus position. CBD morphology was determined by at least two operators before and after the operation. CBD morphology was classified as straight type, S type, or polyline type according to the shape of CBD from the endoscopic view: Straight type, the CBD was straight without bending; S type, the CBD was S-shaped with two bends; polyline type, the CBD had one bend.

Statistical analysis

Statistical analyses were performed with SPSS 26.0. Categorical data are reported as frequencies (%), and continuous data are reported as the median (range) or mean ± SD. Student’s t-test was used for continuous variables and Fisher’s exact test or χ2 test for categorical variables. Independent risk factors were analyzed by multivariate logistic regression analysis with a forward likelihood ratio. P < 0.05 was considered statistically significant.

RESULTS
Patient characteristics

A total of 138 patients with Billroth II anatomy who underwent ERCP between January 2011 and October 2020 were retrospectively identified from the collected database, with a follow-up period of 54.4 ± 32.6 mo. The average age was 72.3 years old, and 107 (77.5%) patients were male. The recurrence rate was 19.6% (27/138). No statistically significant differences were observed in patient characteristics between the recurrence and non-recurrence groups, which included age, sex, CBD diameter, largest CBD stone diameter ≥ 1.2 cm, CBD stone number ≥ 2, muddy stones, initial ampullary intervention (EST, EPBD/EPLBD, and ESBD), and cholecystectomy (Tables 1 and 2).

Table 1 Patient characteristics.

n (%)
Patients138
Male107 (77.5)
Age (mean ± SD, yr) 72.3 ± 10.5
PAD40 (29.0)
CBD diameter (mean ± SD, cm) 1.4 ± 0.6
CBD diameter ≥ 1.2 cm110 (79.7)
CBD diameter ≥ 1.5 cm73 (52.9)
Largest CBD stone diameter ≥ 1.2 cm68 (49.3)
CBD stone number ≥ 256 (40.6)
Muddy stones20 (14.5)
Initial ampullary intervention
EST8 (5.8)
EPBD/EPLBD79 (57.2)
ESBD28 (20.3)
CBD morphology
Straight type69 (50.0)
S type22 (15.9)
Polyline type47 (34.1)
Cholecystectomy8 (5.8)
Procedure time (mean ± SD, min)38.3 ± 19.5
Table 2 Characteristics of patients with and without common bile duct stone recurrence.

Recurrence (n = 27)
Non-recurrence (n = 111)
P value
Sex (male/female) 21/686/250.97
Age (mean ± SD, yr) 71.9 ± 10.272.4 ± 10.60.82
PAD, n (%)12 (44.4)28 (25.2)0.05
CBD diameter (mean ± SD, cm) 1.5 ± 0.61.4 ± 0.40.29
CBD diameter ≥ 1.2 cm, n (%)27 (100.0)83 (74.8)< 0.01
CBD diameter ≥ 1.5 cm, n (%)23 (85.2)50 (45.0)< 0.01
Largest CBD stone diameter ≥ 1.2 cm, n (%)14 (51.9)54 (48.6)0.77
CBD stone number ≥ 2, n (%)13 (48.1)43 (38.7)0.37
Muddy stones, n (%)4 (14.8)16 (14.4)1.00
Initial ampullary intervention, n (%)
EST2 (7.4)6 (5.4)1.00
EPBD/EPLBD15 (55.6)64 (57.7)0.84
ESBD6 (22.2)22 (19.8)0.78
CBD morphology, n (%)< 0.01
Straight type4 (14.8) 65 (58.6)
S type12 (44.4) 10 (9.0)
Polyline type11 (40.7) 36 (32.4)
Cholecystectomy, n (%)3 (11.1)5 (4.5)0.39
Procedure time (mean ± SD, min)44.9 ± 22.736.7 ± 18.40.05
Patient characteristics according to CBD morphology

Characteristics in patients with different CBD morphologies are shown in Table 3. Approximately 50.0% of CBDs were diagnosed as straight type, 15.9% as S type, and 34.1% as polyline type. CBD diameter (P < 0.01) and CBD diameter ≥ 1.2 cm (P < 0.01) differed significantly among different CBD morphologies. The CBD diameter in patients with S type was 1.8 ± 0.6 cm, which was larger than that in patients with straight type (1.5 ± 0.5 cm). And the patients with a CBD diameter ≥ 1.2 cm in the S type, straight type, and polyline type accounted for 100.0%, 71.0%, and 83.0%, respectively. Other factors showed no significant difference.

Table 3 Characteristics of patients with different common bile duct morphologies.

Straight type (n = 69)
S type (n = 22)
Polyline type (n = 47)
P value
Sex (male/female) 49/2018/440/70.19
Age (mean ± SD, yr) 72.6 ± 10.971.8 ± 10.672.0 ± 10.00.93
PAD: n (%)20 (29.0)9 (40.9)11 (23.4)0.33
CBD diameter (mean ± SD, cm) 1.5 ± 0.51.8 ± 0.61.6 ± 0.5< 0.01
CBD diameter ≥ 1.2 cm, n (%)49 (71.0)22 (100.0)39 (83.0)< 0.01
CBD diameter ≥ 1.5 cm, n (%)32 (46.4)16 (72.7)25 (53.2)0.10
Largest CBD stone diameter ≥ 1.2 cm, n (%)32 (46.4)10 (45.5)26 (55.3)0.59
CBD stone number ≥ 2, n (%)27 (39.1)13 (59.1)16 (34.0)0.13
Muddy stones, n (%)12 (17.4)2 (9.1)6 (12.8)0.68
Initial ampullary intervention, n (%)
EST3 (4.3)2 (9.1)3 (6.4)0.62
EPBD/EPLBD39 (56.5)14 (63.6)26 (55.3)0.80
ESBD15 (21.7)3 (13.6)10 (21.3)0.78
Cholecystectomy, n (%)3 (4.3)2 (9.1)3 (6.4)0.62
Procedure time (mean ± SD, min)34.9 ± 15.749.1 ± 27.838.4 ± 18.60.07
Patient characteristics according to multiple recurrences

The numbers of one recurrence and multiple recurrences of CBDS were 20 (14.5%) and 7 (5.1%), respectively. The average number of recurrences in the multiple recurrence group was 3.3, and the maximum was 6. All characteristics about single recurrence and multiple recurrences are shown in Table 4. Muddy stones were relatively more common in patients without recurrence (20.0%) compared to recurrent patients (0.0%). However, due to the small sample size, it did not reach a statistical difference.

Table 4 Characteristics of patients with single recurrence and multiple recurrences.

Single recurrence (n = 20)
Multiple recurrences (n = 7)
P value
Sex (male/female) 15/56/11.00
Age (mean ± SD, yr) 72.7 ± 8.969.4 ± 13.80.48
PAD, n (%)11 (55.0)1 (14.3)0.09
CBD diameter (mean ± SD, cm) 1.9 ± 0.42.0 ± 0.80.73
CBD diameter ≥ 1.2 cm, n (%)20 (100.0)7 (100.0)
CBD diameter ≥ 1.5 cm, n (%)18 (90.0)5 (71.4)0.27
Largest CBD stone diameter ≥ 1.2 cm, n (%)9 (45.0)5 (71.4)0.39
CBD stone number ≥ 2, n (%)10 (50.0)3 (42.9)1.00
Muddy stones, n (%)4 (20.0)0 (0.0)0.55
Initial ampullary intervention, n (%)
EST2 (10.0)0 (0.0)1.00
EPBD/EPLBD11 (55.0)4 (57.1)1.00
ESBD4 (20.0)2 (28.6)0.63
CBD morphology, n (%)1.00
Straight type3 (15.0)1 (14.3)
S type9 (45.0)3 (42.9)
Polyline type8 (40.0)3 (42.9)
Cholecystectomy, n (%)3 (15.0)0 (0.0)0.55
Procedure time (mean ± SD, min)45.8 ± 17.042.4 ± 36.00.82
Follow-up period (mean ± SD, yr)19.0 ± 10.620.1 ± 7.70.80
Risk factors for CBD stone recurrence

In univariate analysis, CBD diameter ≥ 1.2 cm (P < 0.01), CBD diameter ≥ 1.5 cm (P < 0.01), and CBD morphology (P < 0.01) were associated with CBD stone recurrence (Table 2).

According to multicollinearity analysis, we reported variance inflation factors (VIFs) among CBD diameter, CBD diameter ≥ 1.2 cm, CBD diameter ≥ 1.5 cm, and CBD morphology (VIF < 5). In multivariate analysis, CBD morphology (P < 0.01) and CBD diameter ≥ 1.5 cm (odds ratio [OR] = 6.15, 95% confidence interval [CI]: 1.87-20.24, P < 0.01) were the two independent risk factors. Furthermore, the recurrence rate of patients with S type was 16.79 times that of patients with straight type (OR = 16.79, 95%CI: 4.26-66.09, P < 0.01); the recurrence rate of patients with polyline type was 4.97 times that of patients with straight type (OR = 4.97, 95%CI: 1.42-17.38, P = 0.01); the recurrence rate of S type patients was 3.38 times that of patients with polyline type (OR = 3.38, 95%CI: 1.07-10.72, P = 0.04) (Table 5).

Table 5 Risk factors for common bile duct stone recurrence.
Factor
β
OR (95%CI)
P value
β
OR (95%CI)
P value
PAD0.551.74 (0.61-4.95)0.30
Procedure time0.011.01 (0.98-1.03)0.84
CBD diameter ≥ 1.5 cm1.826.15 (1.87-20.24)< 0.01
Model 1Model 2
CBD morphology< 0.01< 0.01
Straight typeReference-1.600.20 (0.06-0.70)0.01
S type2.8216.79 (4.27-66.09)< 0.011.223.38 (1.07-10.72)0.04
Polyline type1.604.97 (1.42-17.38)0.01Reference
DISCUSSION

ERCP for CBD stones removal has always been a challenge in patients with Billroth II anatomy, and altered anatomy increases the difficulty of the operation and the incidence of complications. However, potential factors for CBD stone recurrence have not been thoroughly defined. To date, there has been no report concerning a specific description of CBD morphology and the connection between CBD morphology and CBD stone recurrence. This study investigated whether different shapes of CBD and other factors influence CBD stone recurrence after successful ERCP. Furthermore, this is the first report to introduce the new concept of CBD morphology, which was classified into straight type, S type, and polyline type.

In multivariate analysis, CBD morphology and CBD diameter ≥ 1.5 cm were the two independent risk factors for the recurrence of CBD stones in Billroth II anatomy patients. More specifically, the recurrence rate of patients with S type was higher than that of patients other types. As reported, bile stasis is an essential factor in the pathogenesis of CBD stones, which can also contribute to CBD infections[17]. Beta-glucuronidase changes bilirubin hydrolysis to nonconjugated, and calcium combines with nonconjugated bilirubin easily, which promotes bilirubin calcium formation and stone recurrence[18].

Different shapes of the CBD enter the duodenum at different angles. The straight type CBD enters the duodenum at an acute angle, while the S type and polyline type angles are close to a right angle. Due to the dysfunction of the sphincter of Oddi, CBD that enters the duodenum at a right angle is more prone to intestinal fluid reflux. Because intestinal fluid contains digestive juices, food residues, and a large number of bacteria, once reflux occurs, it causes the bile duct loop change and predisposes to bile duct infection[19].

Kim et al[20] suggested that complete endoscopic removal of CBD stones is associated with CBD angulation. From the observation, we might hypothesize that CBD morphology, particularly S type and polyline type, is the specific contribution factor affecting technical difficulty and complete CBD stones removal. Apparently, incomplete endoscopic removal can induce CBD stone recurrence.

Some prospective studies indicated that CBD diameter could predict the further recurrence of stones[11,21,22]. And they assumed that a dilated CBD could promote the formation of stone because of bacterial contamination and bile stasis. In our study, CBD diameter ≥ 1.5 cm was the independent risk factor of recurrence, which supported the assumption.

Our study noted that the presence of PAD was not an independent risk factor for the recurrence of CBD stones in multivariate analysis. PAD is known to induce functional biliary stasis because of inducing reflux of duodenal contents or compression of the distal CBD[23]. However, the effect of PAD on bile stasis is thought to disappear after ampullary interventions such as EST; PAD may not induce the CBD stone recurrence.

By analyzing the procedure time of patients with successful stone removal, we noted that the average procedure time of S type patients was significantly longer than that of the other two groups. However, it did not reach a statistical difference. According to the result, we considered the hypothesis that CBD morphology is a predictive factor for successful CBD stone removal, difficult endoscopic operation, and complications. Starting from this point, we investigated the detailed association between CBD morphology and endoscopic therapy.

Different initial ampullary interventions have different effects on the outcome and complications of CBD stones extraction[24-28]. The differences in the initial ampullary intervention (EST, EPBD/EPLBD, and ESBD) were not statistically significant in our study. Our research was probably limited by the small sample size. Therefore, a prospective study with a large sample size may be recommended to determine the appropriate ampullary intervention in patients with different CBD morphologies.

Although we cannot change the shape of CBD by surgery or ERCP, prophylactic therapy may be effective in preventing the recurrence of CBD stones. Ursodeoxycholic acid (UDCA) is known to improve bile excretion, and may suppress the CBD stone recurrence by improving cholestasis. Some studies reveal that UDCA facilitates the extraction of CBD stones or effectively reduces the diameter of stones[29,30]. According to the report that excluded patients after gastrectomy by Yamamoto et al[31], UDCA may be a therapeutic option to prevent CBD stone recurrence. Moreover, UDCA treatment for 6 mo after LSG effectively prevents cholelithiasis[32-34]. However, some studies did not recommend the use of UDCA to prevent CBD stone recurrence[12,35]. Therefore, further exploration of UDCA with a more significant number of subjects will be required in the future.

Most studies advocated that a sharply angulated bile duct might induce bile stasis and predict recurrent CBD stones. Seo et al[36] reported that the average bile duct angle in the recurrence group was 268.3°, and bile duct angulation was the independent predictor of CBD stone recurrence, while Zhang et al[16] reported that it was bile duct angulation (≤ 135°). It is challenging to define and measure sharp bile duct angulation specifically. However, measurement at ERCP of bile duct angulation is simple without any risk or additional procedure.

In the current study, the assessment of CBD morphology was on a two-dimensional plane. Compared with a more accurate three-dimensional plane, this actually may lead to bias[20]. In our study, the patients were placed in the left lateral decubitus position to eliminate bias regarding position change. The accuracy of CBD morphology assessment could be improved in future prospective studies.

The present study was limited by its small sample size and retrospective nature. The observation that there was no significant difference between single recurrence and multiple recurrences may be related to the small sample size.

CONCLUSION

In conclusion, ERCP in unique shapes of CBD, such as S type and polyline type, is challenging and requires careful assessment and other treatment options before the endoscopic procedure. CBD morphology of S type and polyline type should be regarded as a high risk factor for stone recurrence. It is beneficial to identify Billroth II anatomy patients for preventing serious complications, such as CBD stones.

ARTICLE HIGHLIGHTS
Research background

Endoscopic retrograde cholangiopancreatography (ERCP) is the first choice for removing common bile duct (CBD) stones in Billroth II anatomy patients. The risk factors for CBD stone recurrence after ERCP have been discussed for many years. However, CBD morphology had never been noticed as a potential risk factor.

Research motivation

Our study introduced the new concept of CBD morphology on the cholangiogram and classified it into straight type, S type, and polyline type.

Research objectives

The objective of this study was to evaluate CBD morphology and other predictors affecting CBD stone recurrence in Billroth II gastrectomy patients.

Research methods

We performed a retrospective case-control analysis of CBD stones patients with a history of Billroth II gastrectomy, and there were 138 patients who underwent therapeutic ERCP at our center from January 2011 to October 2020. We examined the possible predictors of CBD stone recurrence by univariate analysis and multivariate logistic regression analysis.

Research results

CBD morphology (P < 0.01) and CBD diameter ≥ 1.5 cm (odds ratio [OR] = 6.15, 95% confidence interval [CI]: 1.87-20.24, P < 0.01) were the two independent risk factors. Patient characteristics were not statistically significant between the recurrence and non-recurrence groups, which included age, sex, CBD diameter, largest CBD stone diameter ≥ 1.2 cm, CBD stone number ≥ 2, muddy stones, initial ampullary intervention (EST, EPBD/EPLBD, and ESBD) and cholecystectomy. In multivariate analysis, the recurrence rate of patients with S type was 16.79 times that of patients with straight type (OR = 16.79, 95%CI: 4.26-66.09, P < 0.01), the recurrence rate of patients with polyline type was 4.97 times that of patients with straight type (OR = 4.97, 95%CI: 1.42-17.38, P = 0.01), and the recurrence rate of S type patients was 3.38 times that of patients with polyline type (OR = 3.38, 95%CI: 1.07-10.72, P = 0.04).

Research conclusions

CBD morphology, especially S type and polyline type, is associated with increased recurrence of CBD stones in Billroth II anatomy patients.

Research perspectives

Future research with more samples should be undertaken to assess the association between CBD morphology and CBD stone recurrence in patients with or without Billroth II gastrectomy. And periodic surveillance and standard prophylactic therapy should be explored.

ACKNOWLEDGEMENTS

We thank all medical staff and technicians of digestive endoscopy center who participated in this study.

Footnotes

Manuscript source: Unsolicited manuscript

Specialty type: Medicine, research and experimental

Country/Territory of origin: China

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P-Reviewer: Gonoi W, Kao JT, Paik WH S-Editor: Wang LL L-Editor: Wang TQ P-Editor: Xing YX

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