Endoscopy 2007; 39: E196-E197
DOI: 10.1055/s-2007-966410
Unusual cases and technical notes

© Georg Thieme Verlag KG Stuttgart · New York

The use of the double-balloon enteroscope for endoscopic retrograde cholangiopancreatography and biliary stent placement after Roux-en-Y hepaticojejunostomy

T.  G.  Moreels1 , B.  Roth1 , E.  J.  Vandervliet2 , P.  M.  Parizel2 , J.  Dutré3 , P.  A.  Pelckmans1
  • 1Department of Gastroenterology and Hepatology, Antwerp University Hospital, Antwerp, Belgium
  • 2Department of Radiology, Antwerp University Hospital, Antwerp, Belgium
  • 3Department of Gastroenterology and Hepatology, ZNA Jan Palfijn Hospital, Merksem, Belgium
Further Information

T. G. Moreels, , MD, PhD 

Antwerp University Hospital
Department of Gastroenterology and Hepatology

Wilrijkstraat 10

B-2650 Antwerp
Belgium

Fax: +32-38214478

Email: tom.moreels@uza.be

Publication History

Publication Date:
05 July 2007 (online)

Table of Contents

Roux-en-Y biliodigestive reconstruction excludes the biliary tract from conventional endoscopic retrograde cholangiopancreatography (ERCP) [1] [2] [3]. However, the 200-cm-long double-balloon enteroscope (DBE) facilitates intubation of the afferent Roux-en-Y limb and maintains its position in front of the biliodigestive anastomosis. The 2.8-mm working channel allows for the introduction of conventional accessories, provided they have 230 cm length available. Choledochojejunostomy balloon dilation using DBE was first reported after living donor liver transplantation [4]. In one multicenter study, two patients successfully underwent DBE ERCP and biliary balloon dilation after Roux-en-Y reconstruction [5].

We report two DBE interventions in one patient who had developed a hepaticojejunostomy stricture after resection of the right lobe of the liver. This 72-year-old man with a Klatskin IIIa tumor underwent curative right hepatectomy and Roux-en-Y hepaticojejunostomy in 2004. Two years later, he presented with cholangitis and dilatation of the intrahepatic biliary tree in the remaining left liver without any evidence of tumor recurrence on magnetic resonance imaging. With the patient under general anesthesia, we reached the hepaticojejunostomy using the Fujinon EN-450T5 therapeutic DBE (Fujinon Corporation, Saitama-Shi, Saitama, Japan). The anastomosis was impacted with sludge entrapped in remaining sutures ([Figure 1]). It was cannulated with a sclerosing needle catheter to perform cholangiography ([Figure 2]). The anastomotic stricture was dilated up to 6 mm using an esophageal dilation balloon, leading to swift clearance of intrahepatic contrast ([Figure 3]). The cholangitis recurred 5 months later as a result of occlusion of the hepaticojejunostomy. During a second DBE procedure we created a new orificium with a sclerosing needle ([Figure 4]). The anastomosis was dilated over a guide wire, and two 7-Fr biliary stents (12 cm and 9 cm) were introduced through the DBE into the left hepatic branch to avoid rapid stenosis ([Figure 5], [6]). We used a nasobiliary catheter as a pushing device to introduce the stents.

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Figure 1 Endoscopic view of the hepaticojejunostomy during the first procedure showing sludge impacted in the remaining sutures.

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Figure 2 Radiologic view of balloon dilation of the hepaticojejunostomy up to 6 mm using a conventional esophageal dilation balloon. The balloon is filled with diluted iodinated contrast material (procedure 1).

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Figure 3 Endoscopic view of the dilated hepaticojejunostomy at the end of the first procedure. Note the remaining surgical sutures.

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Figure 4 Radiologic view of the cholangiography after a new access to the dilated left hepatic branch had been created using a sclerosing needle. The cholangiography was performed with a dilation balloon in place (procedure 2).

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Figure 5 Endoscopic view of biliary stent (7 Fr) placement over a guide wire, using a nasobiliary catheter as a pushing device. The first biliary stent is already in position (procedure 2).

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Figure 6 Radiologic view of the two biliary stents located in the hepaticojejunostomy. Note the air cholangiography at the end of procedure 2.

Evidence is emerging that DBE allows ERCP interventions after Roux-en-Y surgery. Although it remains an elaborate procedure, it might prevent the need for redo surgery. Accessories adapted to the therapeutic DBE should be made available to enable further developments for this new indication.

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References

T. G. Moreels, , MD, PhD 

Antwerp University Hospital
Department of Gastroenterology and Hepatology

Wilrijkstraat 10

B-2650 Antwerp
Belgium

Fax: +32-38214478

Email: tom.moreels@uza.be

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References

T. G. Moreels, , MD, PhD 

Antwerp University Hospital
Department of Gastroenterology and Hepatology

Wilrijkstraat 10

B-2650 Antwerp
Belgium

Fax: +32-38214478

Email: tom.moreels@uza.be

Zoom Image

Figure 1 Endoscopic view of the hepaticojejunostomy during the first procedure showing sludge impacted in the remaining sutures.

Zoom Image

Figure 2 Radiologic view of balloon dilation of the hepaticojejunostomy up to 6 mm using a conventional esophageal dilation balloon. The balloon is filled with diluted iodinated contrast material (procedure 1).

Zoom Image

Figure 3 Endoscopic view of the dilated hepaticojejunostomy at the end of the first procedure. Note the remaining surgical sutures.

Zoom Image

Figure 4 Radiologic view of the cholangiography after a new access to the dilated left hepatic branch had been created using a sclerosing needle. The cholangiography was performed with a dilation balloon in place (procedure 2).

Zoom Image

Figure 5 Endoscopic view of biliary stent (7 Fr) placement over a guide wire, using a nasobiliary catheter as a pushing device. The first biliary stent is already in position (procedure 2).

Zoom Image

Figure 6 Radiologic view of the two biliary stents located in the hepaticojejunostomy. Note the air cholangiography at the end of procedure 2.