Technique for Safe Repositioning of Duckbill-Type Laser-Cut Anti-Reflux Metal Stents Using a Biliary Dilatation Balloon

Kozue Uchidate; Masanori Kobayashi; Takahiro Kawamura

doi:10.1055/s-0045-1812480

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CC BY 4.0 · Journal of Digestive Endoscopy
DOI: 10.1055/s-0045-1812480

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Technique for Safe Repositioning of Duckbill-Type Laser-Cut Anti-Reflux Metal Stents Using a Biliary Dilatation Balloon

Authors

Kozue Uchidate

¹Department of Gastroenterology and Hepatology, JA Toride Medical Center, Ibaraki, Japan
Masanori Kobayashi

²Department of Gastroenterology and Hepatology, Soka Municipal Hospital, Saitama, Japan
Takahiro Kawamura

¹Department of Gastroenterology and Hepatology, JA Toride Medical Center, Ibaraki, Japan

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Case Presentation

An 86-year-old woman with distal cholangiocarcinoma ([Fig. 1a]) initially underwent plastic stent placement but developed cholangitis 3 days later. To ensure prolonged patency, a duckbill-type anti-reflux metal stent (D-ARMS; 10 mm, 7 cm; Duckbill Biliary Stent; SB-Kawasumi Laboratories, Inc, Tokyo, Japan) was placed; however, the distal end was misplaced, leading to migration ([Fig. 1b, c]). Fifteen days later she was readmitted with cholangitis due to intrahepatic bile duct obstruction at the hepatic hilum caused by the migrated stent ([Fig. 2a]). The D-ARMS is a laser-cut metallic stent that adheres firmly to the bile duct due to its zigzag structure and cannot be narrowed by traction, making conventional removal with snares or forceps difficult and increasing the risk of bleeding or perforation. Therefore, stent removal was attempted using a biliary dilation balloon (CRE PRO Biliary Dilatation Balloon; Boston Scientific, Marlborough, Massachusetts, United States). The balloon was expanded to cover the narrowest part of the obstruction, ensuring proximal positioning to the distal end of D-ARMS (10.5 mm, 4 atm; [Fig. 2b]). Gentle traction successfully shifted the SEMS (self-expandable metal stent) distal end 1 cm downstream from the papilla ([Fig. 2c]). A plastic stent was placed for recurrence prevention ([Fig. 2d]), and the patient remained stable without further cholangitis ([Video 1]).

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Video 1 Technique for safe repositioning of duckbill-type laser-cut anti-reflux metal stents using a biliary dilatation balloon.

Fig. 1 Misplacement and migration of a duckbill-type anti-reflux metal stent (D-ARMS). (a) Coronal contrast-enhanced CT image showing obstruction in the distal bile duct (red arrowhead), suggestive of distal cholangiocarcinoma. (b) Endoscopic image during ERCP showing the migrated D-ARMS (Duckbill Biliary Stent; SB-Kawasumi Laboratories, Inc., Tokyo, Japan), with only the tip of the anti-reflux valve visible at the papilla. (c) Fluoroscopic image after D-ARMS deployment, demonstrating proximal migration toward the hepatic hilum. CT, computed tomography.

Fig. 2 Repositioning of the migrated D-ARMS using a biliary dilation balloon. (a) Coronal CT image showing the proximal end of the migrated D-ARMS obstructing the intrahepatic bile duct at the hepatic hilum (red arrowhead). (b) Fluoroscopic image showing a biliary dilation balloon (CRE PRO Biliary Dilatation Balloon; Boston Scientific, Marlborough, Massachusetts, United States) covering the narrowest part of the obstruction. The balloon tip was positioned proximal to the distal end of the D-ARMS and inflated to 10.5 mm (4 atm) to conform tightly to the stent. Using the same technique as for stone extraction, the stent was gently pulled toward the papilla. (c) Endoscopic image confirming that the distal end of the SEMS had been successfully moved ∼1 cm downstream from the papilla. (d) Fluoroscopic image after ERCP showing the repositioned D-ARMS with a plastic stent inserted inside to prevent remigration. CT, computed tomography; D-ARMS, duckbill-type anti-reflux metal stent; SEMS, self-expandable metal stent.

Publication History

Article published online:
16 October 2025

© 2025. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution License, permitting unrestricted use, distribution, and reproduction so long as the original work is properly cited. (https://creativecommons.org/licenses/by/4.0/)

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References
1 Hu B, Wang T-T, Shi Z-M. et al. A novel antireflux metal stent for the palliation of biliary malignancies: a pilot feasibility study (with video). Gastrointest Endosc 2011; 73 (01) 143-148

Reference Link Ris
Crossref PubMed Search in Google Scholar
2 Kin T, Ishii K, Okabe Y, Itoi T, Katanuma A. Feasibility of biliary stenting to distal malignant biliary obstruction using a novel designed metal stent with duckbill-shaped anti-reflux valve. Dig Endosc 2021; 33 (04) 648-655

Reference Link Ris
Crossref PubMed Search in Google Scholar
3 Tanisaka Y, Ryozawa S, Kobayashi M. et al. Endoscopic removal of laser-cut covered self-expandable metallic biliary stents: a report of six cases. Mol Clin Oncol 2018; 8 (02) 269-273

Reference Link Ris
PubMed Search in Google Scholar
4 Yamada Y, Sasaki T, Takeda T. et al. Removal of Duckbill-type laser-cut anti-reflux metal stents: clinical evaluation and in vitro study. DEN Open 2023; 3 (01) e217

Reference Link Ris
Crossref PubMed Search in Google Scholar
5 Sasaki T, Takeda T, Sasahira N. Double stenting with EUS-CDS using a new anti-reflux metal stent for combined malignant biliary and duodenal obstruction. J Hepatobiliary Pancreat Sci 2020; 27 (11) e15-e16

Reference Link Ris
Crossref PubMed Search in Google Scholar

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Technique for Safe Repositioning of Duckbill-Type Laser-Cut Anti-Reflux Metal Stents Using a Biliary Dilatation Balloon

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