Endoscopic ultrasound (EUS) can be used to guide drainage of pelvic abscesses. Here,
we present a case of successful pelvic abscess drainage using a dedicated, wide, flared-end,
fully covered self-expandable metal stent (FCSEMS).
A 68-year-old woman was admitted to our hospital with a high fever that had not settled
after 4 weeks of antibiotic use. She had a history of renal transplantation and use
of immunosuppressant therapy. A computed tomography (CT) scan revealed a pelvic abscess
with an air density of 7.5 × 7.4 cm ([Fig. 1]).
Fig. 1 Computed tomography (CT) scan image showing air density in a pelvic abscess.
We attempted transrectal EUS-guided drainage of the abscess ([Fig. 2]). The abscess was punctured using a 19-gauge needle (EchoTip Ultra; Cook Japan,
Tokyo, Japan), and a 0.025-inch guidewire (VisiGlide 2; Olympus Medical Systems, Tokyo,
Japan) was placed ([Fig. 3 a]; [Video 1]). After the guidewire had been coiled in the abscess, the echoendoscope was withdrawn,
leaving the guidewire in place. A forward-viewing, double-channel endoscope (GIF-2T240,
Olympus) loaded with a conventional endoscopic retrograde cholangiopancreatography
(ERCP) catheter (0120211; MTW Endoskopie, Wesel, Germany) was then introduced into
the rectosigmoid junction over the guidewire, but it was not possible to dilate the
needle tract using the ERCP catheter.
Fig. 2 Endoscopic ultrasound (EUS) image at the rectosigmoid junction showing a heterogeneous
lesion in the pelvic cavity that is hyperechoic in places and hypoechoic in others,
consistent with an abscess.
Fig. 3 Radiographic images showing: a the guidewire being placed and coiled in the pelvic abscess (inset: endoscopic ultrasound
view); b placement of a dedicated, wide, flared-end, fully covered self-expandable metal stent
(SEMS) in the pelvic abscess (inset: endoscopic image showing a large amount of pus
exuding through the stent; c placement of a transrectal drainage catheter for irrigation through the SEMS (inset:
endoscopic view).
Endoscopic ultrasound-guided pelvic abscess drainage using a dedicated wide, flared-end,
fully covered self-expandable metal stent and a 5-Fr pigtail transrectal drainage
catheter for irrigation.
The needle tract was therefore dilated by a 6-Fr wire-guided diathermic dilator (Cysto-Gastro-Set;
Endo-Flex GmbH, Voerde, Germany) using blended cut mode, and step-up dilation was
performed using dilation catheters (Soehendra Biliary Dilation Catheter, SBDC-6 and
SBDC-9; Cook Japan) ([Video 1]). A dedicated, wide, flared-end FCSEMS (NAGI stent, 1.6 × 3 cm; Taewoong-Medical
Co. Ltd., Seoul, South Korea) and transrectal drainage catheter for irrigation were
then successfully placed without complications ([Fig. 3 b, c]; [Video 1]).
The abscess immediately shrank to a size of 3.8 × 3.0 cm and the patient recovered
well. Afterwards, the patient was able to receive further therapy for renal failure
without the FCSEMS being removed.
EUS-guided pelvic abscess drainage, typically with single or double plastic stents,
has been reported in eight case reports/series [1]
[2]
[3]
[4]
[5]
[6]
[7]
[8]. To our knowledge, this is the first report of EUS-guided pelvic abscess drainage
with a dedicated FCSEMS. A dedicated FCSEMS may be ideal for pancreatic or peripancreatic
fluid collections and for treating pelvic or liver abscesses because of its antimigration
features and the possibility of direct insertion through the endoscope [9]
[10].
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