Laparoscopic cholecystectomy is generally accepted as the gold standard treatment
for symptomatic gallstones [1]
[2]. For patients who are not suitable operative candidates, endoscopic ultrasound (EUS)-guided
cholecystoduodenostomy or cholecystogastrostomy can be performed using a double-flanged,
fully covered, metal stent as a bridge to further transduodenal or transgastric cholecystolithotomy
[3]
[4]. Given that the diameter of the stent is limited, it was previously believed that
only gallstones of less than 1 cm in diameter should be removed by this novel technique.
Here, we report a patient with a symptomatic gallstone larger than 1 cm who successfully
underwent endoscopic transduodenal cholecystolithotripsy via a double-flanged, fully
covered, metal stent.
An 80-year-old woman was admitted to the medical center with chills, fever, and nausea
for 17 days, as well as jaundice for 7 days. An initial contrast computed tomography
(CT) scan and transabdominal ultrasound revealed gallbladder and common bile duct
(CBD) stones ([Fig. 1]). Further EUS demonstrated that the stone in the gallbladder was approximately 20 × 16 mm
in size, and the stones in the CBD were 4 – 7 mm in diameter ([Fig. 2 a, b]). As the poor medical condition of this patient made her an unsuitable operative
candidate, endoscopic sphincterectomy and EUS-guided cholecystolithotomy were planned
to treat the cholelithiasis and choledocholithiasis.
Fig. 1 Imaging prior to treatment. Computed tomography scan revealed a gallbladder stone
(a, arrow) and common bile duct stones (b, arrow). c Transabdominal ultrasound scan showed the gallbladder stone (arrow).
Fig. 2 Endoscopic ultrasound images prior to treatment. a The stone in the gallbladder was approximately 20 × 16 mm in size. b The stones in the common bile duct were 4 – 7 mm in diameter.
After informed consent had been obtained, the EUS-guided cholecystoduodenostomy was
carried out using a previously reported technique [4]
[5]. A longitudinal echoendoscope with a working channel of 3.8 mm was introduced into
the duodenum to scan for and mark the puncture point. An EchoTip Ultra EUS needle
(22 G; Cook Medical Inc., Bloomington, Indiana, USA) was introduced via the working
channel of the echoendoscope, and the gallbladder was punctured under EUS guidance.
Bile was aspirated, and 10 mL of radiographic contrast was injected to confirm that
the punctured structure was the gallbladder. Under the guidance of EUS and fluoroscopy,
the double-flanged stent (2.5 cm in length, 1.5 cm in width, 1.2 cm in diameter) was
placed and deployed as a bridge between the gallbladder and the duodenum. Next, endoscopic
sphincterectomy was performed, which successfully removed the stones from the CBD.
No symptoms of peritonitis were observed during the postoperative period, and a normal
diet was resumed 48 hours after the operation ([Video 1]).
Video 1: Endoscopic transduodenal cholecystolithotomy and cholecystolithotripsy.
Two weeks after the cholecystoduodenostomy procedure with stent placement, the patient
underwent transduodenal cholecystolithotomy. Prior to this operation, CT was performed
to confirm the formation of a fistula between the gallbladder and duodenum, and to
ensure that the stent remained in place ([Fig. 3]). A gastrointestinal endoscope with a working channel of 2.8 mm was advanced into
the gallbladder via the stent. A stone measuring approximately 20 × 16 mm was observed
in the neck of the gallbladder. It could not be extricated by a stone basket through
the metal stent, leaving cholecystolithotripsy as the only way to definitively treat
this condition.
Fig. 3 Computed tomography was performed to confirm the formation of a fistula between the
gallbladder and duodenum, and to ensure that the stent remained in place.
First, a stone basket was inserted into the gallbladder via the working channel to
catch the stone. The basket with stone was then withdrawn from the gallbladder and
locked within the flared cholecystic end of the stent. Next, the basket was cut off
and the lithoclast was applied to break the stone into two pieces, which could then
be discharged from the gallbladder via the stent. The stent was then removed. The
inside of the gallbladder was carefully cleaned. Finally, radiography via balloon
catheter was performed, which showed no residual stones. An endoscopic nasobiliary
drain (ENBD) was placed in the gallbladder.
Postoperatively, the patient had no complaints, and no abnormal laboratory results
were found. Radiography performed 24 hours later via the ENBD revealed a large amount
of contrast medium leaking from the gallbladder into the duodenum, indicating that
the fistula was unhealed. A repeat radiographic study 48 hours later showed a decrease
in leakage and the ENBD was subsequently removed. Esophagogastroduodenoscopy performed
with transparent cap 60 hours later revealed a closed fistula and an ulcer was seen
([Video 1]). After 5 days of antibiotics and proton pump inhibitor treatment, the patient was
discharged without complications.
To the authors’ knowledge, this is the first EUS-guided cholecystoduodenostomy plus
endoscopic transduodenal cholecystolithotripsy reported in the world. Previous studies
have indicated that gallstones smaller than 1 cm can be removed via a fistula formed
by a stent between the gallbladder and the stomach or duodenum [3]
[4]
[5]
[6]. Here, we described a new technique to treat gallstones larger than 1 cm. We strongly
recommend that cholecystolithotripsy should be performed within the stent to protect
the gallbladder and duodenum. The success of this endoscopic transduodenal cholecystolithotripsy
method indicates that the size of the gallstone is no longer a limiting factor in
popularizing this new technology [7].
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