Endoscopic ultrasound-guided hepaticogastrostomy (EUS-HGS) is a technique to create
a fistula between the stomach and the left intrahepatic bile duct. The technical success
rate is high, reported to be 87 % – 89.5 % in expert hands, but the drawback is the
procedure-related adverse event rate of 27 % [1]
[2], with possible events including pneumoperitoneum, choleperitoneum, infection, stent
dysfunction, and death [3]. In natural orifice transluminal endoscopic surgery (NOTES), an intentional perforation
in the bowel is created to access the peritoneal cavity with an endoscope. We describe
here a novel NOTES technique to salvage a misplaced HGS stent from the peritoneal
cavity.
The patient was a 68-year-old man with lung cancer that had metastasized to the liver
hilum causing compression and stenosis of the duodenum and common bile duct (CBD).
He was initially treated with a duodenal stent and a stent in the CBD; however, because
of tumor expansion, he redeveloped cholestasis with intrahepatic bile duct dilation,
and tumor overgrowth causing stenosis of the duodenum meant that endoscopic retrograde
cholangiopancreatography (ERCP) was not possible. After the patient had given informed
consent, we therefore attempted an EUS-HGS.
The procedure was performed with the patient under conscious sedation. Under EUS guidance,
the left intrahepatic bile duct was punctured with a 19G needle, and a cholangiogram
was obtained following contrast injection. A guidewire was passed through the needle
and the needle was exchanged with a 6-Fr cystogastrotome to create a tract in the
liver parenchyma. A 10-cm partially covered dedicated HGS stent (Biliary Flange Lasso;
M.I. Tech, Seoul, South Korea) was placed into the liver hilum; however, the stent
was released erroneously into the peritoneum ([Fig. 1 a]), causing bile leakage.
Fig. 1 Endoscopic images showing: a the hepaticogastrostomy stent coming out from the liver (red arrow), with the gastric
flange embedded in omental fat (blue arrow); b the stent positioned via the natural orifice transluminal endoscopic surgery (NOTES)
opening.
An intentional perforation in the stomach wall was then created near the original
site of the HGS to pass a gastroscope with a 12.4-mm cap through. The stent was retrieved
and passed through the new orifice into the stomach ([Fig. 1 b]; [Video 1]). The pneumoperitoneum was treated with acute and delayed decompression ([Fig. 2]). The patient was placed on antibiotics and octreotide. The stent position was checked
by a computed tomography (CT) scan on the second day ([Fig. 3]), before the patient commenced liquid feeding. Clinically the patient recovered
rapidly and was discharged after 1 week.
Video 1 A natural orifice transluminal endoscopic surgery (NOTES) procedure is performed
to rescue a misplaced hepaticogastrostomy stent. The stent is used to fill the NOTES
entry site.
Fig. 2 Photograph showing decompression of the air with a water lock.
Fig. 3 Computed tomography (CT) scan performed to confirm correct positioning of the stent.
Endoscopy_UCTN_Code_CPL_1AL_2AD
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