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Endoscopy 2013; 45(S 02): E141-E142
DOI: 10.1055/s-0032-1326260
Cases and Techniques Library (CTL)
© Georg Thieme Verlag KG Stuttgart · New York

Pancreatico-gastric anastomotic insufficiency successfully treated with endoscopic vacuum therapy

T. Schorsch
Department for General, Abdominal, Thoracic and Vascular Surgery, Katholisches Marienkrankenhaus, Hamburg, Germany
,
C. Müller
Department for General, Abdominal, Thoracic and Vascular Surgery, Katholisches Marienkrankenhaus, Hamburg, Germany
,
G. Loske
Department for General, Abdominal, Thoracic and Vascular Surgery, Katholisches Marienkrankenhaus, Hamburg, Germany
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Corresponding author

G. Loske
Department for General, Abdominal, Thoracic and Vascular Surgery
Katholisches Marienkrankenhaus Hamburg GmbH
Alfredstrasse 9
22087 Hamburg
Germany   
Fax: +49-40-25461400   

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Publikationsdatum:
28. Mai 2013 (online)

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We carried out an adapted Kausch–Whipple operation with gastro-pancreatic anastomosis in a 65-year-old male patient with duodenal adenocarcinoma (pT3, pN0, M0, R0). On postoperative day 2 we observed substantial discharge of air and biliary fluid from the perianastomotic drain. Initial endoscopy showed a semicircular dehiscence of the pancreatico-gastric anastomosis ([Fig. 1]). The postpyloric anastomosis was intact. There was no general abdominal guarding in the spontaneously breathing and hemodynamically stable patient.

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Fig. 1 Anterior aspect of pancreatico-gastric anastomotic leakage in a 65-year-old man with duodenal adenocarcinoma treated with an adapted Kausch–Whipple operation with gastro-pancreatic anastomosis.

An intraluminal vacuum drainage system ([Fig. 2]) constructed from a long open-pore polyurethane foam (length 12 cm and diameter 2 cm) and a gastric tube (B. Braun Endo-SPONGE, Melsungen, Germany; Ventrol, 14 Ch × 120 cm, Covidien, Dublin, Ireland) was placed over the anastomosis. We have described the procedure in previous publications [1]. Applying a continuous negative pressure of 125 mmHg (V.A.C. Freedom, Kinetic Concepts, Inc. San Antonio, Texas, USA) resulted in the intended collapse of the stomach around the vacuum drainage system and complete evacuation of all digestive fluids ([Fig. 3]).

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Fig. 2 Placement of vacuum drainage system.
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Fig.3 a Perianastomotic drain with discharge of air and digestive fluids. b Leakage from the pancreatico-gastric anastomosis. c Vacuum drainage system. d Application of negative pressure and collapse of the stomach around the vacuum drainage. e The gastro-jejunostomy. f The biliodigestive anastomosis.

After placement of drainage system, biliary discharge from postoperative drain decreased as did the levels of inflammatory parameters. The patient was on parenteral nutrition but was allowed to drink water. A follow-up endoscopy 4 days after the procedure revealed the anastomotic dehiscence had reduced in size and no discharge of air into the perianastomotic drain. The stomach had completely collapsed around the intraluminal vacuum drainage. The mucosa showed the typical erosion pattern ([Fig. 4]) and swift evacuation of the flushing fluid was indicative of normal function of the vacuum drainage, which was thus left in place. On day 8 there were no endoscopic signs of anastomotic leakage and vacuum therapy was terminated. Additional conventional contrast imaging did not show signs of leakage and the patient was switched to full liquid oral nutrition. Follow-up endoscopy 3 and 7 days after therapy ([Fig. 5]) showed no recurrence of the anastomotic dehiscence. The patient was put on full oral nutrition and the perianastomotic drain was removed. Another follow-up endoscopy of the asymptomatic patient 75 days after therapy revealed normal postoperative condition.

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Fig. 4 Mucosal erosion pattern after removal of vacuum drainage system on day 8.
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Fig. 5 Pancreatico-gastric anastomosis with no signs of leakage 3 days after vacuum therapy.

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#

Competing interests: None

  • Reference

  • 1 Loske GSTMC. Intraluminal and intracavitary vacuum therapy for esophageal leakage: a new endoscopic minimally invasive approach. Endoscopy 2011; 43: 540-544
    Google Scholar

Corresponding author

G. Loske
Department for General, Abdominal, Thoracic and Vascular Surgery
Katholisches Marienkrankenhaus Hamburg GmbH
Alfredstrasse 9
22087 Hamburg
Germany   
Fax: +49-40-25461400   

  • Reference

  • 1 Loske GSTMC. Intraluminal and intracavitary vacuum therapy for esophageal leakage: a new endoscopic minimally invasive approach. Endoscopy 2011; 43: 540-544
    Google Scholar

   Lizenzen und Reprints
Zoom Image
Fig. 1 Anterior aspect of pancreatico-gastric anastomotic leakage in a 65-year-old man with duodenal adenocarcinoma treated with an adapted Kausch–Whipple operation with gastro-pancreatic anastomosis.
Zoom Image
Fig. 2 Placement of vacuum drainage system.
Zoom Image
Fig.3 a Perianastomotic drain with discharge of air and digestive fluids. b Leakage from the pancreatico-gastric anastomosis. c Vacuum drainage system. d Application of negative pressure and collapse of the stomach around the vacuum drainage. e The gastro-jejunostomy. f The biliodigestive anastomosis.
Zoom Image
Fig. 4 Mucosal erosion pattern after removal of vacuum drainage system on day 8.
Zoom Image
Fig. 5 Pancreatico-gastric anastomosis with no signs of leakage 3 days after vacuum therapy.