We present the case of a 77-year-old man with an enterolith and severe jejunal stricture
causing afferent loop syndrome, who was successfully treated with endoscopic balloon
dilation and subsequent electrohydraulic lithotripsy (EHL).
The patient underwent Whipple’s operation and radiotherapy for duodenal cancer in
2004 and regularly visited the outpatient clinic without evidence of recurrence. In
August 2019, he visited the emergency room with epigastric clamping pain, nausea,
vomiting, and fever. Laboratory findings showed a cholestatic pattern of elevated
liver function test and hyperbilirubinemia. Computed tomography revealed a short segmental
jejunal narrowing with an impacted oval-shaped stone (1.6 cm) causing upstream afferent
loop dilation ([Fig. 1]) [1]
[2].
Fig. 1 Computed tomography showed a short segmental jejunal stricture and an enterolith
(arrow).
The stricture site was reached by antegrade colonoscope (PCF H290D; Olympus, Tokyo,
Japan) ([Fig. 2]). Contrast media was injected into the afferent loop and revealed segmental narrowing
and a huge filling defect ([Fig. 3]). The stricture site was dilated with a controlled radial expansion balloon (Boston
Scientific, Galway, Ireland; 8 mm, 10 atm, 30 seconds) ([Fig. 4], [Video 1]).
Fig. 2 Endoscopic view of the jejunal stricture.
Fig. 3 Fluoroscopy finding of a filling defect (arrowhead) and jejunal stricture (arrow)
with upstream dilatation.
Fig. 4 Endoscopic view showing stricture site dilation using a controlled radial expansion
balloon.
Video 1 Endoscopic electrohydraulic lithotripsy of an enterolith causing afferent loop syndrome
after Whipple’s operation.
A large yellowish enterolith was noted on the proximal side of the jejunal stricture.
We fragmented the stone using an EHL probe (3 Fr 3 m; WA09408A, Walz Elektronik GmbH,
Rohrdorf, Germany) and electrohydraulic shock wave generator (Lithotron EL-27 Compact;
Walz Elektronik GmbH) ([Fig. 5]) [3]
[4]. EHL of the enterolith was performed with saline irrigation through the working
channel of the scope ([Video 1]). The enterolith fragments were then retrieved using a basket ([Fig. 6]). Forceps biopsy of the stricture site was obtained and revealed chronic enteritis.
The patient’s symptoms resolved, and laboratory findings returned to normal after
treatment.
Fig. 5 Endoscopic view of electrohydraulic lithotripsy to fragment the enterolith.
Fig. 6 Endoscopic view after stone removal.
In our patient, the enterolith might have occurred due to jejunal hypomotility, stricture,
and bacterial overgrowth after radiation therapy [5]. This case illustrates an alternative, less invasive option for the management of
enteroliths with small-bowel stricture.
Endoscopy_UCTN_Code_CPL_1AI_2AD
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