Safety and efficacy of EUS-guided pancreatic duct drainage in symptomatic main pancreatic duct obstruction: Is there still a place for surgery?

Introduction

In the last decade, transgastric ultrasound-guided (EUS) pancreatic drainage has been promoted for complex alterations of the main pancreatic duct (MPD) that occur in cases of chronic pancreatitis (CP) and for the altered anatomy mainly associated with the Whipple procedure. The incidence of CP is 7.7/100,000 with a prevalence 1 of 26.4/100,000, making the condition as prevalent as inflammatory bowel disease 2 . CP is defined as pancreatic disease in which recurrent inflammatory episodes lead to the replacement of pancreatic parenchyma by fibrous connective tissue, which gradually results in development of ductal and parenchymal abnormalities 3 . Pain is the main symptom, and leads to significant reduction in quality of life 2 4 . Its mechanism is complex, but likely linked to ductal hyper-pressure 3 induced by obstruction from intraductal calcifications and/or fibrous stenosis. In patient who have undergone surgery, this obstruction is secondary to pancreatic-jejunal or pancreatic-gastric surgical anastomosis stenosis. Pain management is well documented 5 , and the drug therapy combined with endoscopy or invasive surgical typically is required to improve duct clearance and achieve pain regression.

The endoscopic approach to MPD drainage was first described in the early 1980 s, and since 1987, it has been widely used, with development of extracorporeal lithotripsy to fragment stones in CP. Endoscopic retrograde cholangiopancreatography (ERCP) is considered the first-line invasive treatment for symptomatic dilation of MPD 6 7 8 . Indeed, drainage with plastic stents allows for technical success rates of 90 % to 97 %, with symptom regression in 60 % to 80 % of patients 9 . However, in 3 % to 10 % 10 of the cases, the drainage with ERCP is not feasible due to an impassable MPD stricture, obstructive lithiasis, duodenal stenosis, or altered anatomy post-surgery 9 11 12 13 . In these situations, surgery has been the only available treatment 14 , with efficacy comparable to endoscopy 15 and clinical success rates ranging from 65 % to 85 %. However, the adverse event (AE) and mortality rates can reach 30 % and 2 %, respectively 16 17 18 . In addition, anastomotic stricture may occur after the procedure, causing painful obstruction of the upstream duct of Wirsung 16 19 20 .

Interventional ultrasound also has evolved considerably, with techniques such as transgastric ultrasound-guided drainage of pancreatic pseudo-cysts and walled-off necrosis, and more recently, hepatico-gastrostomy for transgastric biliary drainage 21 22 . Following this dynamic, the EUS-guided pancreatic duct drainage (EUS-PD) first was described by François et al. using a cystotome. Then, various techniques for creating the path between the pancreatic duct and the stomach were proposed with balloon dilation 23 24 , with an increased risk of pancreatic leakage, as indicated in the PRINCEPS study 12 .

Despite several technical improvements, the technique remains technically complex. This has been reported in various studies, all retrospective and single-center with small sample size 9 12 25 26 27 . More recently, multicenter studies have been published, with larger numbers of patients 11 28 and longer follow-up. The technical success rate is approximately 90 %, with clinical efficacy observed in 70 % to 90 % of patients, who have a significant reduction in pain.

Thus, we present our series, which evaluated the results of EUS-PD in management of symptomatic dilation of the MPD that has failed to respond to ERCP or in patients for whom that procedure is impossible. The objectives were to evaluate the safety and the efficacy of the procedure.

Patients and methods

Study design and patients

This was a single-center, retrospective study of consecutive cases, conducted at the North Hospital in Marseille, to evaluate EUS-PD of the MPD. All the patients in for whom MPD drainage was indicated because of symptomatic dilation were identified using a retrospective database that included information on all ERCP or therapeutic EUS procedures performed in our tertiary center between January 2010 and January 2019. This database meets national criteria for protection of patient data and is validated by the CNIL (Commission Nationale de l’Informatique et des Libertés).

All patients included the analysis were suffering painful pancreatic stenosis (CP or anastomotic stricture) associated with > 4-mm MPD dilation, as confirmed by prior imaging (computed tomography or magnetic resonance imaging), and EUS-PD had been attempted in them because ERCP failed or could not be performed. Conversely, patients who had a non-dilated duct associated with pancreatic atrophy, neoplastic pancreatic strictures, or for whom anticoagulants could not be discontinued were excluded.

As shown in Table 1 , information was collected on the following patient characteristics: age, sex, active smoking and alcohol consumption, cause of MPD dilation, etiology of CP or cause of cephalic pancreatic duodenectomy (CDP), pain and associated analgesic consumption. Data on morphological characteristics, such as weight and body mass index, and on duration of hospitalization and early complications also were collected.

Patient characteristics and etiologies of MPD dilatation.

Patients, n	27
Average age, years [min-max]	61.8 [36–85]
Sex, % (n)
Female	29.6 % – (8)
Male	70.4 % – (19)
Tobacco, % (n)	40.7 % (11)
Alcohol, % (n)	29.6 % (8)
Average BMI, [min-max]	22.4 [16–37]
Daily analgesic consumption 1 , % (n)
Level I	96.2 % (26)
Level II	14.8 % (4)
Level III	18.5 % (5)
Pain, % (n)
Postprandial/continuous	40 % (11)
Acute pancreatic attacks	60 % (16)
Etiology of MPD dilation
Chronic pancreatitis (classification TIAR-O)	66.6 % (18)
Toxic – metabolic	50 % (9)
Obstructive	16.6 % (3)
Idiopathic	33.3 % (6)
Altered anatomy post CDP	33.3 % (9)
IPMN	44.4 % (4)
Cystic dystrophy	11.1 %(1)
Ampulloma	22.2 % (2)
Mucinous cystadenoma	11.1 % (1)
GIST	11.2 % (1)

MPD, main pancreatic duct; CDP, cephalic duodenopancreatectomy; IPMN, intraductal papillary mucinous neoplasm; GIST, gastrointestinal stromal tumor.

According to OMS classification

Endoscopic procedure

The procedure was performed by interventional endoscopists who were experts in ERCP and in therapeutic EUS. All patients received general anesthesia and were intubated and placed in the supine position. Post-procedural acute pancreatitis prophylaxis with nonsteroidal anti-inflammatory drugs was administered, as recommended in European Society of Gastrointestinal Endoscopy guidelines 29 . The endoscope used was always a linear therapeutic EUS-scope with at least a 3.6-mm operating channel (Pentax or Fujifilm, Japan), with fluoroscopic control.

Pancreatico-gastrostomy was performed following as described here ( Fig. 1 and Fig. 2 ). Step 1: Puncture of dilated MPD under EUS using a 19G fine needle aspiration needle (EchoTip, Cook Endoscopy, United States or Boston Scientific, United States). A pancreatography was then performed by injecting diluted contrast into the MPD. Step 2: Placement in the main pancreatic duct of a 0.035-inch guidewire under fluoroscopic control (Jag-Wire, Boston Scientific, United States). Step 3: Creation of a pancreatic-gastric fistula using a 6Fr cystotome (Cysto Gastro, Endoflex, Voerde, Germany), with application of a pure section current (120 Watts, Erbe Vio, Erlangen, Germany) to cross the gastric wall and the pancreatic parenchyma. Step 4: Placement over the wire of a 7Fr straight plastic stent between the MPD and the stomach. In patients without CDP, when the guidewire crossed the stenosis and was in the duodenum, the appointment technique was performed at a later time.

Fig. 1

 Diagram of the different stages of EUS-guided Wirsungo-gastrostomy. a Expansion of the main pancreatic duct (MPD) > 4 mm. b Echo-guided puncture with a 19G needle, opacification of the MPD. c Placement of a guidewire in the MPD. d Using a 6Fr cystotome set in pure section, a pancreatic-gastric fistula is created. e Installation of a straight transgastric pancreatic plastic prosthesis. f End of the procedure. (Source: Oscar Siame)

Fig. 2

 The different stages of Wirsungo-gastrostomy under echo endoscopy. a Expansion of the main pancreatic duct (MPD > 4 mm). b Echo-guided puncture using a 19G needle. c Opacification of the MPD under fluoroscopic control. d Installation in the MPD of a wire. e Creation of a pancreatic-gastric fistula using a 6Fr cystotome and then installation of a straight transgastric pancreatic plastic prosthesis. f Endoscopic view, resulting from pancreatic sugar at the end of the procedure.

The endoscopic data ( Table 2 ) collected were on the maximum diameter of the MPD evaluated by EUS, the location and type of stenosis, the type of equipment used (puncture needle, cystotome, guide wire, stent), and any intraoperative complications, such as digestive bleeding, acute pancreatitis, or pain.

Endoscopic data.

	Global n = 27
Type of stenosis, % (n)
Fibrous	33.3 % (9)
Calculation	33.3 % (9)
Anastomotic	33.3 % (9)
Cause of ERCP failure, % (n)
Inaccessible papilla	33.3 % (9)
Obstructive lithiasis	33.3 % (9)
Impassable stenosis of the MPD	33.3 % (9)
Location of stenosis, % (n)
Cephalic	44.4 % (12)
Isthmic	22.2 % (6)
Anastomotic	33.3 % (9)
Previous ERCP, % (n)	66.6 % (18)
Average MPD dilatation mm, [min-max]	6.5 [3–12]

MPD, main pancreatic duct; ERCP, endoscopic retrograde cholangiopancreatography.

Postoperative and long-term follow-up

The patients fasted for 24 hours after the procedure and were discharged after 3 to 5 days. They were either seen in a clinic or at the hospital at 3 and 6 months, and every 6 months thereafter, or contacted by phone if they were living too far away (patients referred from other centers). A standard questionnaire ( Fig. 3 ) was used to assess their pain, weight variation, development of diabetes or exocrine insufficiency, and quality of life.

Fig. 3

 Follow-up survey.

More specifically, pain was systematically documented before and during follow-up, using a visual analogic scale (VAS) from 0 to 10. The improvement was classified into three categories: “Complete regression” if a patient had no residual pain (VAS = 0); “partial regression” if patient had occasional and low-intensity pain episodes (VAS ≤ 3) with a reduction of at least three points compared to the VAS collected before the procedure; and finally, “no regression” if there were no significant changes despite constant consumption of palliate II or III analgesics over time, according to the World Health Organization classification.

Delayed AEs, including early recurrence, EUS-PD stent migration, and digestive perforation were reported, as well as the need for subsequent surgery in case of complete failure.

Objectives

The main objective was to evaluate the technical success of EUS-PD in patients with symptomatic dilation of the MPD in whom ERCP had failed or it could not be performed. Success was defined as placement of a plastic stent between the stomach and the MPD.

The secondary objectives were to document the safety profile with the complication rate for the procedure, the clinical success in terms of pain regression, and patient quality of life as measured on the standard follow-up questionnaire, and to define a standardized management algorithm.

Statistical analysis

The File Maker Pro (Apple Inc., United States) and Axigate databases of the APHM (Axigate SAS, Paris, France) were used to collect the data. Statistical analyses were conducted with SPSS statistics software (IBM Rochester, Minnesota, United States). The data were expressed as means with extremes and percentages. Frequencies and percentages were used for the qualitative variables. Medians and means were used for the quantitative variables. A univariate subgroup analysis was performed and P  < 0.05 was considered statistically significant.

Results

Patient characteristics

Twenty-seven patients (70.4 % male, average age 61 ± 12 years) were included in the analysis between January 2010 and January 2019. Nine patients had altered anatomy after surgery; the other 18 patients had CP without prior pancreatic resection. The etiology of CP and the indications for MPD in patients in the group with altered anatomy are detailed in Table 1 .

The indication for drainage was dilation of the MPD associated with presence of painful pancreatic symptomatology in all patients. Of these, 60 % of patients had recurrent acute pancreatitis attacks; the remaining 40 % had radiating postprandial pain (typical pancreatic pain).

The causes of previous ERCP failure were inaccessibility to the papilla in nine patients, obstructive lithiasis in nine patients, and fibrous stenosis impassable by the guidewire in nine patients ( Table 2 ).

Technical success

Technical success was achieved in 92.5 % of patients (n = 25) ( Table 3 ). Access to the MPD was possible in 100 % of patients by the transgastric route. The plastic stent was placed in an anterograde transgastric fashion in 88 % of patients (n = 24) and in a transpapillary retrograde fashion after use of the “rendezvous” technique in one patient (4 %). In two patients, the Wirsungo-gastric stent placement failed. In the two cases of stent placement failure, cyanoacrylate (mixed with lipiodol) was injected into the puncture path associated with the closure of the transgastric access with clips (Instinct, Cook, United States), without clinical consequences.

Technical modalities and patient follow-up after endoscopic treatment.

	Global n = 27	Altered anatomy n = 9	PCC n = 18
Technical success, % (n)	92.5 % (25)	88.8 % (8)	94.4 % (17)
Clinical success 1 % (n)	88.8 % (24)	88.8 % (8)	83 % (15)
Pain regression, % (n)
Complete	44.4 % (12)	77.8 % (7)	27.8 % (5)
Partial	44.4 % (12)	22.2 % (2)	55.5 % (10)
Absent	11.2 % (3)	0 % (0)	16.7 % (3)
Other clinical symptoms, % (n)
Decreased acute pancreatic attacks	88.8 % (24)	100 % (9)	83 % (15)
Improving the quality of life	74 % (20)	100 % (9)	61 % (11)
Modification of appetite	66.6 % (18)	88.8 % (8)	55.5 % (10)
Complications, % (n)
Acute pancreatitis	7 % (2)	11 % (1)	5.5 % (1)
Postoperative pain	14 % (4)	11 % (1)	16.6 % (3)
Death	0	0	0
Endoscopic procedure, medium, [min-max]
Average length of hospital stay, in days	4.2 [2–8]	4.1 [3–6]	4.3 [2–8]
Interval of stent exchange, in months	5 [4–6]	6 [6–6]	5 [4–6]
Number of stent exchanges	3.7 [1–10]	4.8 [1–10]	3.2 [1–7]
Median follow-up, % (month)	34.2 [41–02]	44.8 [16–102]	28.9 [4–81]

Min-max, minimum-maximum.

Complete or partial pain regression.

Of the placed stents, 92.5 % (n = 25) were 7Fr plastic stents (7 cm or 5 cm), whereas only one patient had a fully-covered metal stent placed.

Complications

There were no intraoperative complications. The overall rate of postoperative AEs was 22 % (n = 6). Four patients (14 %) experienced postoperative non-specific pain, with spontaneous improvement. The mean length of hospitalization after the EUS-PD was 4.2 days 2 3 4 5 6 7 8 . In case of complications, the hospitalization stay was extended . Two cases of delayed benign acute edematous pancreatitis (7 %) were reported (on Days 20 and 30 after stent placement), both requiring a 72-hour hospitalization, with no further intervention required.

During a mean 34.2-month follow-up, five spontaneous stent migrations occurred. Four were discovered fortuitously during the follow-up endoscopy, planned for stent exchange (3 plastic and 1 metal). Of them, one patient still had pain and one was found based on recurrence of abdominal pain (confirmed by imaging) in a patient in whom EUS-PD had previously provided relief. A stent was replaced along the Wirsungo-gastric path in these two patients, whereas the asymptomatic patients remained stent-free.

Clinical success and factors

Clinical success was achieved in 88.8 % of patients (n = 24) ( Table 3 ). Half of them described a “complete regression” and half a “partial regression.” Oppositely, 11.2 % of patients did not show any symptomatic improvement. A subgroup analysis revealed that 100 % of patients in the altered anatomy group were improved, compared to 83 % in the CP group.

Improved quality of life was reported in 74 % of patients and a change in appetite in 66.6 %. Univariate analysis ( Table 4 ) revealed a significant difference with regard to the consumption of class I painkillers, weight variation, and improvement in quality of life in favor of the altered anatomy group compared with the CP patients ( P  < 0.05; Table 3 ).

Varied uni-analysis of the associated factors according to the cause of the obstruction.

	Altered anatomy N = 9	PCC N = 18	P value
Consumption of Level 1 analgesics, % (n)	0 % (0)	50 % (9)	0.017
Weight change, % (n)	88.8 % (8)	38 % (7)	0.014
Improvement in quality of life, % (n)	100 % (9)	61 % (11)	0.030

PCC, portal cavernoma cholangiopathy.

Evolution during follow-up

Median follow-up was 34.2 months ( minimum 4 months – maximum 108 months) , with 92.6 % of patients (n = 25) having more than 12 months of follow-up. The mean stent exchange interval was 5 months (4 to 6 months) and the mean number of stent changes during follow-up was 3.7 (1 to10). At the last reassessment, 22 patients still had a plastic stent in place, exchanged every 6 months.

Moreover, during the whole follow-up, no patient underwent secondary surgery or celiac plexus block under ultrasound endoscopy due to persistent pain. Two patients died during the follow-up, one from digestive bleeding secondary to portal hypertension and one from septic shock, in both cases unrelated to the EUS-PD procedures.

Discussion

Symptomatic MPD dilation, CP or altered anatomy-related, due to ductal hyper-pressure, is the target of endoscopic and historically, surgical treatment. In the event that ERCP fails or cannot be performed, even after extracorporeal shockwave lithotripsy, resection surgery was the only option. The latter is based on the realization of a pancreatic-jejunal or pancreatic-gastric anastomosis 14 . Two types of interventions were described: decompressive surgery or Frey intervention in case of dilated MPD without inflammatory mass, and resection surgery or Whipple intervention when there is an inflammatory or suspicious mass, consisting of cephalic duodeno-pancreatectomy (CDP). Despite a good efficacy rate 15 30 morbidity reaches 30 % and mortality 2 % 16 17 18 , still with a risk of anastomotic stricture 20 30 .

For this reason and following the development of therapeutic EUS, EUS-PD was proposed by François et al. in 2002 12 as an alternative to surgery for of symptomatic MPD dilation. The literature since then ( Table 5 ) documents a technical success rate of 86 %, according to a recent review, with a complication rate between 0 % and 20 %, and a clinical success rate between 50 % and 100 % 31 32 33 34 . Our study is consistent with this literature, since the technical success rate was 92.5 %, 92.6 % of patients had a decrease in painful attacks during long-term follow-up, and 88.9 % had “complete” or “partial” regression of pain after a median follow-up of almost 3 years. In addition, no severe AEs or procedural mortality were reported.

Summary of the various studies of EUS-PD.

Authors	No. of patients	Technical success	Clinical success	Complications	Overall follow-up in months	Type of stent
FrancoisGIE, 2002	4	100 %	75 %	0 %	12	Plastic
TeissierGIE, 2007	36	92 %	69 %	14 %	14.5	Plastic
KahalehGIE, 2007	13	92 %	77 %	16 %	14	Plastic
BrauerGIE, 2009	8	88 %	50 %	0 %	14	Plastic
BarkeyGIE, 2010	21	48 %	1	2 %	13	Plastic
ErgunEndoscopy, 2011	20	90 %	72 %	19 %	37	Plastic
FujiiGIE, 2013	45	74 %	83 %	6 %	32	Plastic
WillWJG, 2015	94	88 %	72 %	15 %	28	Plastic and metal
TybergGIE, 2017	80	89 %	81 %	20 %	24	Plastic
OhGIE, 2017	25	100 %	100 %	20 %	18.5	Metal

EUS-PD, EUS-guided pancreatic duct drainage; GIE; WJG

not evaluated

Focusing on patients with altered anatomy after cephalic duodenopancreatectomy (or Whipple resection), a recent international multicenter study compared enteroscopic endoscopic retrograde pancreatography (e-ERP) and EUS-PD. A total of 66 patients and 75 interventions were identified (40 EUS-PD versus 35 e-ERP). Rates of technical and clinical success were 92.5 % and 87.5 %, respectively, in the EUS-PD group compared with 20 % and 23 % in the e-ERP group 35 . We found similar results in our study, with 100 % of symptoms relieved.

Technically, a minimum MPD dilatation ≥ 4 mm is required to safely perform the EUS-guided puncture. However, Umar Hayat et al 36 showed that puncture of an undilated pancreatic duct is technically feasible, although difficult. In his study, he showed that it can be done by using a small-caliber guidewire, 4F angioplasty balloon, and reverse 3F single pigtail stents. If there was no dilation, we did not attempt the drainage because of the uncertainty of effectiveness. Celiac block can be proposed in such a case, as previously published.

Second, the type of stent to use is another matter, given that the majority of teams use plastic. Indeed, migration or obstruction requiring endoscopic reintervention occurs frequently, with a delay before obstruction of around 120 days. Few centers recommend placement of several plastic stents after ERCP to extend the time without dysfunction and shorten the calibration period 37 . However, when performing Wirsungo-gastrostomy, it is neither reasonable nor useful to place multiple stents, since the purpose is not to calibrate an impassable stricture, but to remove the ductal hyper-pressure. When multiple stents are preferable, dual 3Fr stents may provide a permanent wick to keep the fistula open, as described in a small series 36 . Also, this would significantly increase the risk of procedural failure and complications by leaving an active pancreatic fistula after the cystotome was passed. More recently, Oh et al 38 reported the use of a fully-covered self-expanding metal stent when performing EUS-PD. The technical and clinical success rates were 100 % in 25 patients with symptomatic dilation of the main canal with prior ERCP failure. Nevertheless, 20 % of early AEs with acute abdominal pain have been reported, probably due to poor tolerance. In addition, the permeability time was 126.9 days during the mean follow-up (221.1 days), which is no different than with plastic stents 39 .

The final technical aspect is the approach. Although unstable, the transgastric approach remains the most used because it allows direct access to the MPD. A recent study proposed trans-bulbar access, arguing that the endoscope stability in the bulb is superior 39 . The technical success rate was similar, but in cases of isthmic or corporal stenosis or altered digestive anatomy, the trans-bulbar pathway is not feasible.

To date there is no standardized scheme for the interval between changes and the time required to obtain calibration. In our study, the average stent replacement time was 5.4 months. We propose a management algorithm that suggests changing the stent every 6 months for 24 months, then attempting to remove it ( Fig. 4 ). The fact that in the absence of a stent, EUS-PD may persist over time because of a fibrosis phenomenon seems interesting. In five patients, we did not observe pain recurrence after spontaneous stent migration and without new placement. Therefore, there are two hypotheses: (1) After migration of the stents, the anastomosis remains functional; and (2) The natural progression of the disease towards atrophy of the pancreatic parenchyma results in a decrease in the neuropathic component of pain. This phenomenon was described in the study by Tyberg et al 28 of two cases of pancreatic-gastric fistula that remained functional after stent removal, which were detected with secretin MRI.

Fig. 4

 Management algorithm in case of failure of ERCP or in ability to perform it. MPD, main pancreatic duct; ERCP, endoscopic retrograde cholangiopancreatography; EUS, endoscopic ultrasonography; EUS-PD, EUS-guided pancreatic duct drainage

There is still a lack of prospective data on which to base a recommendation for wider use of this technique, which should be reserved for tertiary centers experienced with therapeutic EUS procedures. In 2018, however, the European Society of Gastrointestinal Endoscopy (ESGE) published recommendations 29 for using EUS-PD as a bridge to surgery in patients with insoluble pain, in whom surgery was contraindicated, or for whom surgery represented a significant risk. We believe that rather than bridging the gap to surgery, EUS-PD should be a substitute for ductal decompression surgery, and that in patients suspected of having resectable malignant lesions, only surgical resection should be performed.

Conclusion

In conclusion, this study demonstrated that EUS-PD is safe, minimally invasive, and effective in the management of symptomatic MPD dilation after ERCP has failed or cannot be performed. This technique should be done in expert centers, but it is an alternative to duct decompression surgery. Technical and device advancements will continue to improve the safety and efficiency of this procedure. Prospective studies are needed to confirm its place in the therapeutic strategy for MPD dilation.