Endoscopic biliary drainage has become established as first-line treatment for obstructive
jaundice. However, if the stent becomes obstructed by tumor ingrowth, re-intervention
can sometimes be challenging. One of the challenges can be difficulty in dilating
the stricture. Several techniques for resolving this have been reported, such as those
using the Soehendra stent retriever or a needle-knife catheter [1]
[2]. More recently, Kawakami et al. have reported on the clinical impact of transpapillary
dilation of refractory severe biliary stricture and main pancreatic duct stricture
using a diathermic dilator (Cysto-Gastro-Set; Endo-Flex GmbH, Voerde, Germany) ([Fig. 1]) [3]
[4]. We report successful treatment for stent obstruction due to tumor ingrowth using
this diathermic dilator.
Fig. 1 The 6-Fr diathermic dilator (Cysto-Gastro-Set; Endo-Flex GmbH, Voerde, Germany) fit
over the guidewire.
A 63-year-old man was admitted to our hospital because of obstructive jaundice. He
had 8 months previously undergone placement of uncovered metallic stents (from the
right to the common bile duct, and from the left to the lower bile duct) because of
obstructive jaundice caused by bile duct cancer. We decided to perform a re-intervention.
We inserted an endoscopic retrograde cholangiopancreatography (ERCP) cannula (MTW
Endoskopie, Wesel, Germany) into the previously placed metallic stent, injected contrast
medium, and visualized the stent obstruction ([Fig. 2]). We advanced a 0.025-inch guidewire (VisiGlide; Olympus Medical Systems, Tokyo,
Japan) into the right intrahepatic bile duct, but could not then advance either the
ERCP cannula or a balloon catheter past the obstruction ([Fig. 3]). Next, therefore, we advanced the diathermic dilator. Using an electrosurgical
high-frequency generator (ESG-100; Olympus), diathermy was applied until the dilator
passed through the stricture (in cut mode, 30 W in endo-cut mode) [3]. Finally, we placed a 6-Fr endoscopic nasal biliary drainage tube ([Fig. 4]). After 4 days, the patient underwent a second session, when a metallic stent was
placed.
Fig. 2 Cholangiography showed stent obstruction and a dilated biliary tree.
Fig. 3 First, we inserted the guidewire and advanced first an endoscopic retrograde cholangiopancreatography
cannula, then a balloon catheter, but severe stricture prevented further passage.
Fig. 4 a, b After dilation of the stricture using the diathermic dilator, we successfully advanced
a 6-Fr endoscopic nasal biliary drainage tube.
We inserted an endoscopic retrograde cholangiopancreatography (ERCP) cannula and injected
contrast medium. First, we advanced a 0.025-inch guidewire into the right intrahepatic
bile duct, but we could not then advance either the ERCP cannula or a balloon catheter
past the obstruction. Next, therefore, we advanced the diathermic dilator, and with
this we successfully advanced into the right intrahepatic bile duct. Finally, we placed
a 6-Fr endoscopic nasal biliary drainage tube.
The diathermic dilator is clinically useful and, to our knowledge, the case we have
presented may be the first reported case of successful recanalization of stent obstruction
using the diathermic dilator.
Endoscopy_UCTN_Code_TTT_1AR_2AF
