Project description:Video 1EUS-guided gallbladder drainage in a patient with Billroth II gastrojejunostomy.

Project description: Not available

Project description:Video 1Single-session EDGE with ERCP and EUS gallbladder drainage.

Project description:Endoscopic ultrasonography (EUS)-guided transmural drainage has been accepted as a modality of choice in peripancreatic fluid collection and acute cholecystitis. Each type of stent, including double-pigtail plastic stents, tubular self-expandable metal stents (SEMS), and lumen-apposing metal stents, for these procedure has its own advantages and disadvantages. To overcome their disadvantages, this animal study evaluated the feasibility of a newly designed twisted fully covered SEMS with spiral coiled ends. We performed the EUS-guided cholecystogastrostomy with a newly developed metal stent in eight mini pigs with surgically induced gallbladder distension. This novel stent is a twisted fully covered SEMS with spiral coiled ends, a diameter of 8 mm, and a length of 6 cm. The stent has been maintained for four to seven weeks after EUS-guided cholecystogastrostomy. The primary outcome was the technical success rate, and the secondary outcomes were adverse events, stent dysfunction, stent removability, and fistula formation. The stent was placed successfully between the gallbladder and the stomach in all cases without any adverse event. We observed neither stent migration nor dysfunction during the study period, and all the stents were removed easily as scheduled. We confirmed successful cholecysto-gastric fistula formation at endoscopic and histologic level in all cases. EUS-guided transmural drainage and fistula formation using a new twisted fully covered metal stent with spiral coiled ends was technically feasible without any adverse event in this animal study. Further clinical studies are needed to evaluate its efficacy and safety in real practice.

Project description: Not available

Project description: Not available

Project description:Video 1EUS-guided gallbladder drainage followed by rendezvous ERCP.

Project description:Background and aimsEUS-guided gallbladder drainage (EUS-GBD) can be used to treat acute cholecystitis in patients with medical comorbidities that prevent definitive operative management. Historically, nonsurgical management of cholecystitis was achieved by way of percutaneous gallbladder drainage.MethodsWe examined the periprocedural bleeding rate of EUS-GBD for acute cholecystitis using lumen-apposing metal stents in 5 high-surgical-risk patients requiring anticoagulation. Data on 5 nonoperative candidates with acute cholecystitis who underwent EUS-GBD were studied retrospectively.ResultsThere were no immediate or delayed postprocedure adverse events, including bleeding.ConclusionsAlthough further study is needed, EUS-GBD appears safe in patients who require periprocedural anticoagulation.

Project description:Video 1Complete internal migration of a cholecystoduodenal pigtail stent leading to recurrent cholecystitis, which was then rescued with new EUS-guided gallbladder drainage.

Project description:Background and aimsEUS-guided gastroenterostomy (EUS-GE) is effective in relieving gastric outlet obstruction. Several techniques used to create EUS-GEs have been described. However, these techniques are dependent on passing a guidewire beyond the obstruction. We describe a direct needle-puncture technique that allows for successful EUS-GE creation without a guidewire.MethodsThe direct antegrade EUS-GE method often involves passing a guidewire and tube beyond the obstruction to distend the small bowel. An oblique echoendoscope is then positioned in the stomach to locate the distended small bowel. An electrocautery-enhanced lumen-apposing metal stent (LAMS) is used to create the anastomosis. However, in cases when neither endoscope nor guidewire can be passed across the obstruction, the direct needle-puncture technique can be used. With the oblique echoendoscope positioned in the stomach, a collapsed loop of small bowel is located adjacent to the gastric wall. A 19-gauge needle is used to puncture the gastric and small bowel wall. The small bowel is distended with a mixture of saline, methylene blue, and contrast via a standard water pump connected to the needle. An antispasmodic is administered, and an electrocautery-enhanced LAMS is then introduced into the working channel to create a gastroenterostomy using the freehand method.ResultsThe direct needle-puncture technique was performed in 4 patients for these indications: postsurgical inflammation causing gastric outlet obstruction (case 1), tumor infiltration causing gastric outlet obstruction (cases 2A and 2B), and pancreaticobiliary limb access in a duodenal switch (case 3). The video shows the technique performed in a patient with postsurgical inflammation and a patient with duodenal tumor infiltration.ConclusionsThe direct needle-puncture technique is useful for performing gastroenterostomy when the guidewire cannot be passed beyond the obstruction. It can also be used to gain access to a targeted bowel limb in altered anatomy for diagnostic and therapeutic purposes.