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CC BY 4.0 · Endoscopy 2025; 57(03): 292-293
DOI: 10.1055/a-2501-7582
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Retrograde endoscopic ultrasound-guided entero-enterostomy for the management of a high-output enterocutaneous fistula and ileal stricture in a complex surgical abdomen

Sunil Gupta
1   Division of Gastroenterology, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
2   Department of Surgery, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
3   Department of Gastroenterology and Hepatology, Westmead Hospital, Sydney, Australia (Ringgold ID: RIN8539)
,
Eimear Kirby
4   Department of Surgery, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
,
Sarang Gupta
5   Division of Gastroenterology, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
,
Katarzyna M. Pawlak
6   Division of Gastroenterology, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
,
Joao De Rezende-Neto
7   Department of Surgery, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
,
Jeffrey D. Mosko
8   Division of Gastroenterology, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
,
Natalia C. Calo
9   Division of Gastroenterology, St Michaelʼs Hospital, Toronto, Canada (Ringgold ID: RIN10071)
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    A 26-year-old man sustained significant traumatic thoracoabdominal injuries following a gunshot. After multiple laparotomies, small-bowel resections, and an extended left hemicolectomy with end-colostomy formation, he developed a high-output enterocutaneous fistula (ECF) and loss of colostomy output. Computed tomography imaging confirmed an ECF from the ileum to the anterior abdominal wall. There was also a long ileal stricture distal to the fistula. Owing to his complex surgical abdomen and the proximity of the ECF to an abdominal flap, surgical reintervention was deemed high risk. He was therefore referred for endoscopic management ([Video 1]).


    Quality:
    A retrograde endoscopic ultrasound-guided entero-enterostomy is created in a patient with a high-output enterocutaneous fistula who had undergone multiple abdominal surgical procedures following a gunshot wound.Video 1

    Methylene blue and contrast dye were injected from the skin side of the ECF, filling a dilated loop of small bowel. No downstream passage of contrast was noted ([Fig. 1] a). Retrograde ileoscopy using a pediatric colonoscope revealed a non-traversable benign-appearing ileal stricture, 90 cm proximal to the ileocecal valve (ICV). Contrast injection demonstrated a 10-cm tortuous stricture ([Fig. 1] b), extending to the previously contrast-filled loop of small bowel. Given the length and character of the stricture, endoscopic balloon dilation and enteral stenting were not feasible.

    Zoom Image
    Fig. 1 Fluoroscopic images showing: a filling of a dilated loop of small bowel by contrast injected from the skin side of the enterocutaneous fistula; b, c a deep ileal stricture and proximal dilated loops of small bowel, which were identified as a suitable target for endoscopic ultrasound-guided entero-enterostomy.

    We then proceeded to retrograde endoscopic ultrasound (EUS)-guided entero-enterostomy creation. With the aid of a guidewire, and under endoscopic, fluoroscopic, and endosonographic guidance, a linear echoendoscope was advanced into the ileum via the end-colostomy, cecum, and ICV. At 50 cm from the ICV, we identified an adjacent dilated loop of small bowel ([Fig. 1] b, c). Water was instilled through the ECF, with the endosonographic view demonstrating filling, thereby indicating this to be upstream from the ECF. Puncture was performed with a 19-gauge needle, with subsequent aspiration of methylene blue ([Fig. 2] a). We then created an EUS-guided entero-enterostomy with an electrocautery-enhanced 15-mm lumen-apposing metal stent (LAMS; Hot-AXIOS; Boston Scientific, USA) ([Fig. 2] b). Passage of methylene blue and contrast through the stent confirmed its accurate deployment ([Fig. 3]). With the ECF and stricture bypassed, the patient’s colostomy output returned, the ECF resolved, and the abdominal flap healed ([Fig. 4]).

    Zoom Image
    Fig. 2 Images during creation of the endoscopic ultrasound-guided entero-enterostomy showing: a aspiration of methylene blue dye confirming puncture of the appropriate bowel segment; b deployment of the lumen-apposing metal stent.
    Zoom Image
    Fig. 3 Confirmation of correct deployment of the lumen-apposing metal stent is shown: a on endoscopic view, by passage of methylene blue though the stent; b on radiographic view, by passage of contrast.
    Zoom Image
    Fig. 4 Photographs showing the abdominal flap: a before creation of the entero-enterostomy; b after entero-enterostomy formation.

    Although electrocautery-enhanced lumen apposition with metal stenting is well established, herein we have demonstrated a novel application of this technique in the management of a complex postsurgical trauma patient with a high-output ECF and a deep ileal stricture.

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    Citation Format

    Endoscopy 2024; 56: E970–E971. DOI: 10.1055/a-2428-0026


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    Conflict of Interest

    J. D. Mosko has received speakerʼs and consulting fees from Boston Scientific, Pendopharm, Medtronic, and Fuji. Sunil Gupta, E. Kirby, Sarang Gupta, K. Pawlak, J. De Rezende-Neto, and N. C. Calo declare that they have no conflict of interest.

    Correspondence

    Natalia C. Calo, MD, MSc
    Division of Gastroenterology, St. Michael’s Hospital
    30 Bond Street, 16-034 Cardinal Carter Wing
    Toronto, ON M5B 1W8
    Canada   

    Publication History

    Article published online:
    26 February 2025

    © 2024. The Author(s). This article was originally published by Thieme in Endoscopy 2024; 56: E970–E971 as an open access article under the terms of the Creative Commons Attribution License, permitting unrestricted use, distribution, and reproduction so long as the original work is properly cited. (https://creativecommons.org/licenses/by/4.0/).

    Georg Thieme Verlag KG
    Oswald-Hesse-Straße 50, 70469 Stuttgart, Germany

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    Zoom Image
    Fig. 1 Fluoroscopic images showing: a filling of a dilated loop of small bowel by contrast injected from the skin side of the enterocutaneous fistula; b, c a deep ileal stricture and proximal dilated loops of small bowel, which were identified as a suitable target for endoscopic ultrasound-guided entero-enterostomy.
    Zoom Image
    Fig. 2 Images during creation of the endoscopic ultrasound-guided entero-enterostomy showing: a aspiration of methylene blue dye confirming puncture of the appropriate bowel segment; b deployment of the lumen-apposing metal stent.
    Zoom Image
    Fig. 3 Confirmation of correct deployment of the lumen-apposing metal stent is shown: a on endoscopic view, by passage of methylene blue though the stent; b on radiographic view, by passage of contrast.
    Zoom Image
    Fig. 4 Photographs showing the abdominal flap: a before creation of the entero-enterostomy; b after entero-enterostomy formation.