Endoscopy 2018; 50(08): E195-E196
DOI: 10.1055/a-0605-2710
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Double intrahepatic bile duct puncture: a pitfall during endoscopic ultrasound-guided hepaticogastrostomy

Takeshi Ogura
2nd Department of Internal Medicine, Osaka Medical College, Osaka, Japan
,
Atsushi Okuda
2nd Department of Internal Medicine, Osaka Medical College, Osaka, Japan
,
Akira Miyano
2nd Department of Internal Medicine, Osaka Medical College, Osaka, Japan
,
Rieko Kamiyama
2nd Department of Internal Medicine, Osaka Medical College, Osaka, Japan
,
Nobu Nishioka
2nd Department of Internal Medicine, Osaka Medical College, Osaka, Japan
,
Kazuhide Higuchi
2nd Department of Internal Medicine, Osaka Medical College, Osaka, Japan
› Institutsangaben
Weitere Informationen

Corresponding author

Takeshi Ogura, MD
2nd Department of Internal Medicine
Osaka Medical College
2-7 Daigakuchou, Takatsukishi
Osaka 569-8686
Japan   
Fax: +81-726846532   

Publikationsverlauf

Publikationsdatum:
07. Juni 2018 (online)

 

Endoscopic ultrasound-guided hepaticogastrostomy (EUS-HGS) has emerged as an alternative technique to endoscopic retrograde cholangiopancreatography (ERCP) [1] [2]. During EUS-HGS, the process of fistula dilation is technically challenging. To date, various dilation devices and techniques have been reported [3] [4] [5]. However, despite improvements in dilation devices, challenging cases are still sometimes encountered. We herein describe a pitfall of EUS-HGS, which may be one of the reasons for the challenges encountered in some cases.

The presented case was a 78-year-old woman with advanced cholangiocarcinoma causing duodenal and biliary obstruction. Duodenal metal stent placement was first performed as an endoscopic retrograde cholangiopancreatography (ERCP) failed because of duodenal obstruction. Next, an echoendoscope was inserted into the stomach and the intrahepatic bile duct was punctured using a 19 G fine needle aspiration (FNA) needle. However, because the axis between the bile duct and FNA needle was slightly misaligned, double intrahepatic bile duct occurred ([Fig. 1]), a phenomenon that was confirmed on cholangiography after the injection of contrast medium ([Fig. 2 a]).

Zoom Image
Fig. 1 Endoscopic ultrasound image showing a double intrahepatic bile duct (red arrow, proximal bile duct; yellow arrow, distal bile duct).
Zoom Image
Fig. 2 Cholangiographic images (red arrow, proximal bile duct; yellow arrow, distal bile duct) showing: a the double intrahepatic bile duct following contrast injection; b inability to insert the balloon catheter into the biliary tract, despite the use of a diathermic dilator, meaning fistula dilation was challenging; c the intrahepatic bile duct being dilated again using a balloon catheter; d the notch caused by the double intrahepatic bile duct; e the covered metal stent that was placed to successfully perform endoscopic ultrasound-guided hepaticogastrostomy.

A 0.025-inch guidewire was inserted into the biliary tract and a fine gauge balloon catheter (REN; Kaneka, Osaka, Japan) was inserted to dilate the fistula, as previously described [5]. However, as the balloon catheter could not be inserted into the biliary tract, a diathermic dilator was used ([Fig. 2 b]). Although this device could be passed through the proximal intrahepatic bile duct, we could not insert it into the common bile duct. Therefore, balloon catheter insertion was again attempted, following which it was then possible to insert the device through the double intrahepatic bile duct ([Fig. 2 c]) and fistula dilation was successfully performed ([Fig. 2 d]). Finally, stent placement using a covered metal stent (10 mm × 12 cm, Niti-S Biliary Covered Stent; Taewoong Medical, Seoul, South Korea) was successfully performed ([Fig. 2 e]; [Video 1]). Unfortunately, because of the prolonged procedure time (58 minutes), biliary peritonitis occurred, which subsequently required 7 days of conservative treatment.

Video 1 The intrahepatic bile duct was punctured using a 19 G fine needle aspiration (FNA) needle; however, because the axis between the bile duct and the FNA needle was slightly misaligned, double intrahepatic bile duct occurred. After contrast medium had been injected, the guidewire was inserted into the biliary tract. Although a fine gauge balloon catheter was used, it was not possible to insert the device into the biliary tract. Fistula dilation using a diathermic dilator was therefore attempted; however, although this device could be passed through the proximal intrahepatic bile duct, it could not be inserted into the common bile duct. Balloon catheter insertion was then attempted again and this time it was possible to insert the device through the double intrahepatic bile duct, allowing EUS-HGS finally to be successfully performed.


Qualität:

Our experience suggests that if a double intrahepatic bile duct is encountered during EUS-HGS, re-puncture for the second bile duct may be considered.

Endoscopy_UCTN_Code_CPL_1AL_2AD

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Competing interests

None

  • References

  • 1 Rimbas M, Larghi A. Endoscopic ultrasonography-guided techniques for accessing and draining the biliary system and the pancreatic duct. Gastrointest Endosc Clin N Am 2017; 27: 681-705
  • 2 Ogura T, Higuchi K. Technical tips for endoscopic ultrasound-guided hepaticogastrostomy. World J Gastroenterol 2016; 22: 3945-3951
  • 3 Dhir V, Isayama H, Itoi T. et al. Endoscopic ultrasonography-guided biliary and pancreatic duct interventions. Dig Endosc 2017; 29: 472-485
  • 4 Law R, Baron TH. Endoscopic ultrasound-guided biliary interventions: an update on recent developments. Curr Opin Gastroenterol 2016; 32: 232-237
  • 5 Amano M, Ogura T, Onda S. et al. Prospective clinical study of endoscopic ultrasound-guided biliary drainage using novel balloon catheter (with video). J Gastroenterol Hepatol 2017; 32: 716-720

Corresponding author

Takeshi Ogura, MD
2nd Department of Internal Medicine
Osaka Medical College
2-7 Daigakuchou, Takatsukishi
Osaka 569-8686
Japan   
Fax: +81-726846532   

  • References

  • 1 Rimbas M, Larghi A. Endoscopic ultrasonography-guided techniques for accessing and draining the biliary system and the pancreatic duct. Gastrointest Endosc Clin N Am 2017; 27: 681-705
  • 2 Ogura T, Higuchi K. Technical tips for endoscopic ultrasound-guided hepaticogastrostomy. World J Gastroenterol 2016; 22: 3945-3951
  • 3 Dhir V, Isayama H, Itoi T. et al. Endoscopic ultrasonography-guided biliary and pancreatic duct interventions. Dig Endosc 2017; 29: 472-485
  • 4 Law R, Baron TH. Endoscopic ultrasound-guided biliary interventions: an update on recent developments. Curr Opin Gastroenterol 2016; 32: 232-237
  • 5 Amano M, Ogura T, Onda S. et al. Prospective clinical study of endoscopic ultrasound-guided biliary drainage using novel balloon catheter (with video). J Gastroenterol Hepatol 2017; 32: 716-720

Zoom Image
Fig. 1 Endoscopic ultrasound image showing a double intrahepatic bile duct (red arrow, proximal bile duct; yellow arrow, distal bile duct).
Zoom Image
Fig. 2 Cholangiographic images (red arrow, proximal bile duct; yellow arrow, distal bile duct) showing: a the double intrahepatic bile duct following contrast injection; b inability to insert the balloon catheter into the biliary tract, despite the use of a diathermic dilator, meaning fistula dilation was challenging; c the intrahepatic bile duct being dilated again using a balloon catheter; d the notch caused by the double intrahepatic bile duct; e the covered metal stent that was placed to successfully perform endoscopic ultrasound-guided hepaticogastrostomy.