CC BY-NC-ND 4.0 · Endosc Int Open 2020; 08(07): E877-E882
DOI: 10.1055/a-1164-6282
Original article

EUS-directed transgastric endoscopic retrograde cholangiopancreatography versus laparoscopic-assisted ERCP versus deep enteroscopy-assisted ERCP for patients with RYGB

Gursimran S. Kochhar
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Nabeeha Mohy-ud-din
2   Medicine Institute, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Abhinav Grover
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Neil Carleton
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Abhijit Kulkarni
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Katie Farah
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Manish Dhawan
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
,
Shyam Thakkar
1   Division of Gastroenterology and Hepatology, Allegheny Health Network, Pittsburgh, Pennsylvania, United States
› Author Affiliations
 

Abstract

Background and study aims Endoscopic ultrasound-directed transgastric endoscopic retrograde cholangiopancreatography (ERCP) (EDGE) is a novel technique for managing pancreaticobiliary diseases in patients with a history of Roux-en-Y Gastric Bypass (RYGB). It has shown to have high technical success rates and fewer adverse events as compared to laparoscopic-assisted ERCP (LA-ERCP). We compared the technical success and clinical outcomes of EDGE vs. LA-ERCP vs. E-ERCP.

Patients and methods A retrospective chart review was performed for 56 patients, of whom 18 underwent LA-ERCP, 12 underwent E-ERCP, and 26 had EDGE, and a comparison of technical success and complication rates was done.

Results Baseline demographic characteristics of patients undergoing these procedures, including age and gender, were comparable. The technical success rate for patients in the EDGE group were 100 % (n = 26), compared with 94 % (n = 17) and 75 % (n = 9) in the LA-ERCP and E-ERCP groups (P = 0.02). In the EDGE group, 8 % of patients (n = 2) had bleeding, and 4 % of patients (n = 1) had lumen-apposing metal stent migration occur during the procedure. In the LA-ERCP group 6 % (n = 1) of patient had bleeding, 6 % (n = 1) post-ERCP pancreatitis and 6 % (n = 1) were diagnosed with an intra-abdominal infection post-procedure. Time to complete the EDGE procedure was significantly shorter at 79 ± 31 mins, compared with 158 ± 50 mins for LA-ERCP and 102 ± 43 mins for E-ERCP (P < 0.001).

Conclusion EDGE is a novel procedure with short procedure times and an effective alternative to LA-ERCP and E-ERCP in management of pancreaticobiliary diseases in patients with a history of RYGB.


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Introduction

Endoscopic ultrasound-directed transgastric Endoscopic Retrograde Cholangiopancreatography (EDGE) is a novel technique for managing pancreaticobiliary diseases in patients with a history of Roux-en-Y Gastric Bypass (RYGB). Obesity affects about 93.3 million US adults, and in 2017, there were 228,000 total bariatric procedures [1] [2]. It is estimated that up to 50 % of patients who have undergone RYGB develop gallstone disease [3]. Patients with altered anatomy can pose a challenge to endoscopists and performing a diagnostic or therapeutic procedure can be difficult.

Laparoscopic-assisted endoscopic retrograde cholangiopancreatography (LA-ERCP) is the current method of choice in most centers. However, it is a time-consuming, invasive procedure that requires coordination between endoscopists and surgeons. Even though reported technical success rates are high, LA-ERCP can have adverse events (AEs) in addition to those incurred with ERCP. In a study by Grimes et al., 84 cases of LA-ERCP were reviewed, out of which bowel injury occurred in 5.9 % cases, access site infection occurred in 4.8 %, and 5 % of cases had to be converted to open procedures [4]. Enteroscopy-assisted ERCP (E-ERCP) is being performed routinely by endoscopists; however, this has low reported success rates [5]. The success of E-ERCP is dependent on the length of the roux limb, which in some cases, is not available or is not known. Moreover, expertise in performing a single and/or double balloon enteroscopy may also not be available at all endoscopic centers.

In comparison to the above, EDGE is a novel technique that involves placement of a transgastric or trans jejunal lumen-apposing metal stent (LAMS) to create a fistula, through which an ERCP can then be performed. This procedure can be performed in a single step on the same day, or the ERCP can be performed later after a fistula accessing the remnant stomach has been created. Kedia et al. first described this procedure in a video explaining the performance of EDGE in 6 patients with RYGB anatomy with biliary disease [6]. A recent study performed by James HJ et al. compared the cost-effectiveness of EDGE with device-assisted ERCP and L-ERCP and concluded that EDGE was the most cost-effective modality [7].

The purpose of our study was to evaluate technical success and clinical outcomes of EDGE vs. LA-ERCP vs. E-ERCP to provide more information to endoscopists who are frequently faced with the decision of offering the most appropriate procedure to their patients.


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Patients and methods

Study design

A retrospective chart review was performed for patients who underwent LA-ERCP, E-ERCP, or EDGE at a tertiary care hospital in Pennsylvania between January 2015 and July 2019. The study was part of a quality improvement project; hence this project received an IRB no purview determination (exemption) indicating that this is not considered human subject’s research. A formal written consent was not required as part of this chart review.


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Inclusion criteria

All adult patients (age > 18 years) with a history of RYGB who underwent therapeutic ERCP at our tertiary care center were included. As this was a retrospective study, patient allocation was random, based on informed discussions between performing endoscopist and the patients at the time of the procedure regarding risks and benefits of each procedure.


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Exclusion criteria

Patients aged less than 18 years and pregnant patients were excluded.


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Data collection

Patient demographics, including age and gender, clinical parameters such as aspartate aminotransferase, alanine aminotransferase, alkaline phosphatase, total bilirubin, prior imaging, procedural details, and clinical outcomes (technical success and complication rates) were recorded for each treatment group.


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Outcomes

The primary outcomes were technical success with the respective procedure, defined as cannulation of the intended duct. The following were the secondary outcomes for the study:

  • Difficulty of ERCP procedure was defined as the level of difficulty documented by performing endoscopist or described as difficult if there was a performance of precut sphincterotomy or > 2 attempted cannulations of the intended duct. This definition of difficulty is in accordance with previously published manuscripts that have used similar definitions [8].

  • Time to complete procedure for EDGE was defined as the sum of time taken for initial EUS to form a fistula and the time taken to perform the ERCP if both procedures were not performed on the same day. Time for LA-ERCP and E-ERCP was calculated as the time from the start to the end of the procedure as documented in the anesthesia notes.

  • Length of hospital stay was calculated as the number of days until the patient was discharged from the hospital after the procedure was performed.

  • AEs related to the procedure were defined as bleeding either during or up to 7 days after the procedure, post-ERCP pancreatitis, perforation, or infection.

  • Infection was determined to be present if the patient became febrile or had positive blood cultures requiring antibiotics after the procedure.


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Technique

The EDGE procedure can be performed as one stage or a two-stage procedure, i. e., access to the excluded stomach through a LAMS and an ERCP can be completed in the same endoscopic session, or the ERCP can be performed in a different endoscopic session [6] [9]. At our center, the EDGE procedure is performed in a standard fashion by our advanced endoscopists (GK, MD, ST), in either a single or two-stage endoscopic session. Currently, a decision about whether a single or a two-stage procedure is performed is based on three factors. If the patient clinically has acute cholangitis, and they are agreeable to EDGE procedure then consideration is given to a single stage EDGE procedure. The endoscopist’s preference, depending on his or her prior experience and comfort level is also considered. Finally, patient preference, that is, if the patient cannot or does not want to return for a second procedure, is considered.

First, using a linear EUS Endoscope (Olympus, GF-UCT180), the excluded stomach is visualized by the identification of gastric rugae ([Fig. 1a]). Then a 19-G needle is used to puncture the excluded stomach, and a 0.025-inch soft jag wire is placed through the needle. Next, mixture of contrast along with saline is injected into the stomach to distend the stomach and visualize the antrum and pylorus ([Fig. 1b]). Once the native stomach is adequately visualized, a LAMS delivery system is advanced over the guidewire. At our center, we prefer using a guidewire versus a free hand technique for placement of LAMS as we believe this is a relatively safer approach to access the native stomach.

Zoom Image
Fig. 1 a Visualization of excluded stomach through endoscopic ultrasound. b Fluoroscopic imaging showing distension of stomach after injection of contrast. c Deployment of LAMS after creation of a gastro-gastric/gastro-jejunal fistula. d Dilation of LAMS with a CRE Balloon.

Using a Hot AXIOS delivery system (Boston Scientific, Marlborough, Massachusetts, United States), a fistula is made between the gastric pouch (or remnant jejunum) and the excluded stomach, and the LAMS is deployed under EUS guidance ([Fig. 1c]). The stent tract is dilated with a dilating balloon, to either 15 or 20 mm, depending on the size of the LAMS used ([Fig. 1d]). The EUS scope and the guidewire are then withdrawn. A duodenal scope (Olympus endoscopy) is then advanced through the oropharynx, across the fistula, through the LAMS into the excluded stomach. It is then advanced to the area of the papilla, and a standard ERCP is performed. The LAMS is left in place for 7–10 days and if no further need of ERCP then, LAMS is removed via esophagogastroduodenoscopy (EGD) using rat-toothed forceps.


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Statistical analysis

The continuous variables were reported as means with standard deviations, whereas proportions were reported as percentages. Statistical analysis was performed using statistical package for social sciences (SPSS) 26.0 software (SPSS Inc., Chicago Illinois, United States). For comparison of continuous variables among treatment arms, unpaired student t-test, and analysis of variance (ANOVA) test was used. For comparison of categorical variables, chi-square and Fisher exact tests were used. P < 0.05 was considered significant.


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Results

A total of 56 patients met our inclusion criteria and were included in the study. Of them, 26 patients underwent EDGE, 18 underwent LA-ERCP, and 12 underwent E-ERCP. Baseline characteristics of patients, including age and gender, were not statistically different. ERCP was performed after a mean of 10.7 years following bariatric surgery for EDGE, LA-ERCP patients, and E-ERCP patients (P = 0.188). Baseline characteristics, including liver function tests and imaging performed before ERCP, are detailed in [Table 1].

Table 1

Demographics and baseline liver function tests and imaging performed prior to EDGE, LA-ERCP and E-ERCP.

EDGE (n = 26)

LA-ERCP (n = 18)

E-ERCP (n = 12)

P value

Age (mean ± S.D.)

 60.77 ± 11.44

 60.78 ± 12.67

 68.58 ± 15.09

0.18

Gender

Female (n, %)

 20 (77)

 12 (67)

  8 (67)

0.70

Male (n, %)

  6 (23)

  6 (33)

  4 (33)

AST

 49 ± 35

172 ± 268

 77 ± 66

0.04

ALT

 65 ± 63

197 ± 276

114 ± 113

0.05

Alkaline Phosphatase

231 ± 176

355 ± 415

290 ± 275

0.40

Total Bilirubin

  2.0 ± 4.0

  2.5 ± 2.8

  2.29 ± 2.43

0.88

Prior Imaging (n, %)

CT Abdomen Pelvis

 46 (12)

  7 (39)

  4 (33)

0.53

MRCP

 12 (46)

  9 (50)

  6 (50)

Previous ERCP

  1 (4)

  0 (0)

  0 (0)

EDGE, endoscopic ultrasound-directed transgastric endoscopic retrograde cholangiopancreatography; LA-ERCP, laparoscopy-assisted endoscopic retrograde cholangiopancreatography; E-ERCP, endoscopic retrograde cholangiopancreatography; AST, aspartate transaminase; ALT, alanine aminotransferase; CT, computed tomography; MRCP, magnetic resonance cholangiopancreatography

Indications for the procedure were also comparable across all groups. Thirty-eight percent of patients (n = 10) in the EDGE group had ERCP performed for choledocholithiasis, compared with 78 % (n = 14) and 42 % (n = 5) for LA-ERCP and E-ERCP, respectively (P = 0.37). Indications for the procedures are detailed in [Table 2]. The technical success rate for patients in the EDGE group was 100 % (n = 26), compared with 94 % (n = 17) and 75 % (n = 9) in the LA-ERCP and E-ERCP groups (P = 0.02). Difficulty of the procedure as defined in Methods was low in 100 % of patients (n = 26) in the EDGE group and 78 % of patients (n = 14) in the LA-ERCP group. Difficulty of procedure was defined as high in 58 % of patients (n = 7) in the E-ERCP group (P < 0.001).

Table 2

Indication for EDGE, LA-ERCP and E-ERCP.

Indication[1]

EDGE (n = 26)

LA-ERCP (n = 18)

E-ERCP (n = 12)

P value

Choledocholithiasis (n, %)

10 (38)

14 (78)

5 (42)

0.37

Abdominal pain, LFT abnormalities and CBD Dilation on imaging (n, %)

 5 (19)

 0 (0)

1 (8)

LFT abnormalities with CBD dilation on imaging (n, %)

 0 (0)

 1 (5.5)

0 (0)

Pancreatic duct dilation (n, %)

 2 (8)

 0 (0)

0 (0)

Biliary sludge or biliary leak (n, %)

 3 (8.3)

 1 (5)

1 (8)

Biliary stricture (n, %)

 3 (8.3)

 0 (0)

2 (17)

Cholangitis (n, %)

 1 (4)

 1 (5)

2 (17)

Pancreatitis (n, %)

 2 (8)

 2 (11)

2 (17)

Others (n, %)

 0 (0)

 2 (11)

0 (0)

Others: intrahepatic biliary ductal dilation on imaging and papillary stenosis

EDGE, endoscopic ultrasound-directed transgastric endoscopic retrograde cholangiopancreatography; LA-ERCP, laparoscopy-assisted etrograde cholangiopancreatography; E-ERCP, enteroscopy-assisted endoscopic retrograde cholangiopancreatography; LFT, liver function test; CBD, common bile duct

1 Procedure may have been performed for multiple indications.


In the EDGE group, 92 % (n = 24) had a 15-mm LAMS placed and 8 % (n = 2) had a 20-mm LAMS placed. This was at the discretion of the performing endoscopist. Eight percent of patients (n = 2) had sphincterotomy-related bleeding, and 4 % of patient (n = 1) had LAMS migration occur during the procedure. In the LA-ERCP group 6 % of patients (n = 1) had sphincterotomy-related bleeding, 6 % (n = 1) post-ERCP pancreatitis and 6 % (n = 1) were diagnosed with an intra-abdominal infection post-procedure. In the E-ERCP group 25 % of patients (n = 3) had sphincterotomy-related bleeding, 8 % (n = 1) had infection and 8 % (n = 1) were diagnosed with post-ERCP pancreatitis.

Time to complete the EDGE procedure was statistically significantly shorter at 79 ± 31 mins, compared with 158 ± 50 mins for LA-ERCP and 102 ± 43 mins for E-ERCP (P < 0.001). Hospital length of stay for EDGE was 1.61 ± 1.74 days, compared with 2.44 ± 1.82 days for LA-ERCP and 3.26 ± 4.36 days for E-ERCP (P = 0.18).

The EDGE procedure was performed after a failed ERCP for 15 % of patients (n = 4). Three of these patients had undergone failed L-ERCP, and one had undergone failed E-ERCP. The access route for EDGE was transgastric in 84.6 % of patients (n = 22). EUS with placement of AXIOS stent and ERCP was performed on the same day for 50 % of patients (n = 13). LAMS was removed during the index ERCP for 31 % of patients (n = 8) and at a follow-up EGD for 35 % of patients (n = 9). Details regarding the method of LAMS removal are described in [Table 3].

Table 3

Method of removal of LAMS.

Method of LAMS removal

EDGE (n = 26)

During index ERCP (n, %)

8 (31)

Follow-up EGD (n, %)

9 (35)

Intra-operatively (n, %)

3 (12)

Follow-up ERCP

2 (8)

Follow-up EUS (n, %)

1 (4)

Not removed at the time of this study (n, %)

3 (12)

LAMS, lumen-apposing metal stent; EDGE, endoscopic ultrasound-directed transgastric endoscopic retrograde cholangiopancreatography; ERCP, endoscopic retrograde cholangiopancreatography; EGD, esophagogastroduodenoscopy; EUS, endoscopic ultrasound

The gastro-gastric or gastro-jejunal fistula closed spontaneously in 69 % of EDGE cases (n = 18). 12 % of patients (n = 3) underwent closure of fistula intra-operatively as part of the performance of a Whipple’s procedure. Four percent of patients (n = 1) had closure achieved by endoscopic mucosal clips and LAMS was in-situ in 12 % of patients (n = 3) at the time of this study. Four percent of patients (n = 1) were lost to follow-up. Follow-up methods to ensure closure of fistula are detailed in [Table 4]. The average weight change for patients at 11 weeks from the EDGE procedure was –1.4 kgs (± 6.5).

Table 4

Follow-up methods to determine clinically significant fistula.

Follow-up method to determine clinically significant fistula

EDGE (n = 26)

Clinic visits with weight checks (n, %)

12 (46)

Follow-up gastrointestinal series (n, %)

 5 (19)

EGD (n, %)

 3 (11.5)

LAMS in place at study end point (n, %)

 3 (11.5)

Lost to follow-up (n, %)

 1 (4)

Follow-up scheduled for future at study end point (n,%)

 2 (8)

EDGE, endoscopic ultrasound-directed transgastric endoscopic retrograde cholangiopancreatography; EGD, esophagogastroduodenoscopy; LAMS, lumen-apposing metal stent


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Discussion

As the proportion of obesity within the population continues to increase, so does the proportion of population undergoing weight-loss surgeries such as RYGB [10]. The presence of pancreaticobiliary diseases in patients who have undergone RYGB has been well-described in the literature [11]. The current standard for treatment for these diseases is LA-ERCP or E-ERCP; however, with the evolution of interventional endoscopies, E-ERCP has also become a standard procedure. LA-ERCP needs to be performed in the operating room, with creation of a gastrostomy site. It is a time-consuming procedure and presents with risks of bleeding, infection, and perforation; however, it has a near 100 % technical success rate. E-ERCP has a lower technical success rate than LA-ERCP, less risk of AEs, and is less time-consuming compared to E-ERCP [12]. EDGE carries the benefit of a 100 % technical success rate and can be performed in a shorter time with minimal AEs as described in our study.

An algorithm explaining our current approach in assigning patients to each group is depicted in [Fig. 2]. A recent meta-analysis comparing EDGE with E-ERCP and LA-ERCP concluded that the technical and clinical success of EDGE is superior to E-ERCP and comparable to LA-ERCP [13]. Our study provides further comprehensive comparison of outcomes data at a single academic center, thereby allowing gastroenterologists to make educated decisions along with their patients regarding the choice of procedure. Kedia et al. compared 29 cases of EDGE with 43 cases of LA-ERCP and concluded that EDGE is non-inferior to LA-ERCP and safer in comparison [14]. In their study, two cases of bowel perforation occurred in the LA-ERCP group, whereas one happened in the EDGE group. In the EDGE cases, 3 to 4 weeks were allowed between creation of the fistula and performance of ERCP for the maturation of the gastro-gastric of jejuno-gastric fistula. Their study was in line with our results, where a concern for weight gain was addressed; however, the final results showed that the mean change in weight was negative 6.6 lb at 28 weeks.

Zoom Image
Fig. 2 Algorithm showing suggested approach to performing ERCP in patients with RYGB. *After having an informed discussion with the patient regarding all 3 modalities of treatment.

Another study performed by Kedia et al. looked at performance of EDGE procedures in six cases; however, all six cases were performed as two-step procedures [15]. A recent study conducted by James et al. looked at 19 EDGE procedures, in which fistula closure was promoted using argon plasma coagulation (APC) in 12 patients [16]. Eleven patients had upper gastrointestinal series to assess fistula closure, and one persistent fistula was closed endoscopically.

Our study highlights the significantly shorter time to completion of the procedure for EDGE as compared to LA-ERCP and E-ERCP. It has also described a 100 % technical success rate for EDGE. It is noted that in our study, 38 % of patients (n = 10) in the EDGE arm underwent the procedure due to an indication of choledocholithiasis, however, this was without statistical significance as compared to the LA-ERCP and E-ERCP arms. Post-sphincterotomy bleeding occurred in two patients during the EDGE procedure, and was successfully managed by balloon tamponade with no further bleeding noted. One patient had dislodgement of LAMS after ERCP. The LAMS (15 mm × 10 mm AXIOS) was removed in this case, and the fistula was successfully stented again with another LAMS. In the initial stage, 19 % of patients (n = 5) in the EDGE group underwent an upper gastrointestinal series to document closure of the fistula when we started performing the procedure at our center. However, when the upper gastrointestinal series in all five cases showed no persistence of fistulas, we then adopted a more cost-effective approach by following patients in clinic with regular weight checks. 54 % of patients (n = 14) were followed clinically with regular weight checks to ensure no weight gain. The average weight change at 81 days post-procedure was negative 3.02 lb. In addition, three patients in our study had LAMS in place at the study endpoint. Indications for this were need for recurrent ERCPs due to a biliary stricture of unknown etiology in one patient, need for recurrent ERCPs due to locally advanced pancreatic cancer leading to recurrent cholangitis in 1onepatient, and pancreas divisum leading to recurrent pancreatitis in one patient.

Despite the high technical success rate, our study has a few limitations. To begin with, our study was retrospective and from a single center carrying with it all the potential shortcomings of any retrospective study. Although our study had 26 patients who underwent EDGE at a single center, we still had a relatively small number of subjects in the LA-ERCP and E-ERCP groups, thereby limiting some of the data analysis. Also, we could not conclusively document closure of fistulas, and used weight gain as a surrogate marker to ascertain this. We did not note any persistent fistulas in our study; however, longer follow-up and more patients are needed to study that further. Another limitation of this study was that we were unable to define the difficulty level of the EUS portion of EDGE due to the study’s retrospective nature. We obtained difficulty level only for the ERCP portion, as described above in Methods.


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Conclusion

The EDGE procedure is a novel technique for management of pancreaticobiliary diseases in patients with RYGB. Based on our initial experience and other studies published in the literature, EDGE should be considered as an alternative to LA-ERCP and E-ERCP to manage hepatopancreaticobiliary complications in patients with RYGB in centers with expertise available.


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Competing interests

The authors declare that they have no conflict of interest.


Corresponding author

Gursimran S. Kochhar, MD
1307 Federal Street, Suite B-100
Pittsburgh, PA, USA, 15212
Fax: 412-359-8955   

Publication History

Received: 06 January 2020

Accepted: 30 March 2020

Article published online:
16 June 2020

© 2020. Owner and Copyright ©

© Georg Thieme Verlag KG
Stuttgart · New York


Zoom Image
Fig. 1 a Visualization of excluded stomach through endoscopic ultrasound. b Fluoroscopic imaging showing distension of stomach after injection of contrast. c Deployment of LAMS after creation of a gastro-gastric/gastro-jejunal fistula. d Dilation of LAMS with a CRE Balloon.
Zoom Image
Fig. 2 Algorithm showing suggested approach to performing ERCP in patients with RYGB. *After having an informed discussion with the patient regarding all 3 modalities of treatment.