A 79-year-old man with a history of pylorus-preserving pancreaticoduodenectomy for pancreatic head cancer and Child’s reconstruction underwent total pancreatectomy for remnant pancreatic recurrence 2 years later. Four months after total pancreatectomy, he developed cholangitis. Computed tomography (CT) ([Fig. 1]) showed afferent loop syndrome arising from disseminated peritoneal nodule formation. We attempted to place an intestinal stent at the afferent loop stenosis site to resolve the obstructive jaundice and cholangitis.
Fig. 1 Computed tomography scan showing intestinal and bile duct dilation. At the onset of afferent loop syndrome, disseminated nodules (arrow) were observed.
Although the endoscope (CF-H260AI; Olympus Medical Systems, Tokyo, Japan) reached the stenotic region, advancing the guidewire was difficult and placing the stent was impossible because it was difficult to visualize the stenosis squarely ([Fig. 2]). Thus, the procedure was converted to endoscopic ultrasound (EUS)-guided fistulization from the remnant stomach to the afferent loop ([Video 1]).
Fig. 2 The intestinal bend and severe stenosis obstructed the guidewire. a Endoscopic image of the intestinal bend. b, c Fluoroscopic images showing severe stenosis.
Video 1 It was difficult to place the stent for stenosis in the afferent loop. We could place the endoscopic ultrasound-guided gastroenterostomy using a metal stent.
Qualität:
The afferent loop extending from the remnant stomach was confirmed by EUS, followed by puncture with a 19-gauge needle (EZ Shot 3 Plus; Olympus Medical Systems, Tokyo, Japan) ([Fig. 3 a]). After using contrast imaging to confirm that the needle had penetrated the intestinal tract, a 0.025-inch guidewire (VisiGlide 2; Olympus Medical Systems) was advanced into the dilated intestinal tract ([Fig. 3 b]). Blunt dilation using an ES Dilator (Zeon Medical, Tokyo, Japan) was attempted, but it was difficult; thus, the fistula was dilated using a diathermic dilator (Cysto-Gastro-Set; Endo-Flex GmbH, Voerde, Germany), followed by placement of a fully covered metal stent (X-Suit NIR 10 mm 8 cm; Olympus Medical Systems) ([Fig. 4]). No complications were observed, and the patient’s liver dysfunction and cholangitis promptly improved ([Fig. 5]).
Fig. 3 Endoscopic ultrasound (EUS)-guided transgastric afferent loop drainage. a Puncture of the dilated intestinal tract under EUS guidance using a 19-gauge needle. b The guidewire was placed in the afferent loop.
Fig. 4 An X-Suit NIR fully covered metal stent (Olympus Medical Systems, Tokyo, Japan) was placed between the remnant stomach and afferent loop. a Endoscopic ultrasound image taken during deployment of the stent into the afferent loop. b Fluoroscopic image showing the stent (arrow, distal end of the stent; arrowhead, proximal end of the stent). c Endoscopic image taken inside the remnant stomach immediately after stent placement.
Fig. 5 Computed tomography (CT) image after afferent loop drainage. a Coronal CT showing full view of the metal stent with notch (arrow). b Pneumobilia (arrow) appeared. c The dilation of the afferent loop improved (arrow).
Although previous reports have described the use of plastic stents [1]
[2]
[3] and lumen-apposing metal stents [3]
[4]
[5], this is the first report on the use of a tubular type metal stent. This method is effective in treating afferent loop syndrome if placement of an endoscopic intestinal stent is difficult.
Endoscopy_UCTN_Code_TTT_1AP_2AD
Endoscopy E-Videos is a free access online section, reporting on interesting cases and new techniques in gastroenterological endoscopy. All papers include a high quality video and all contributions are freely accessible online.
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