Keywords
Hemangioma - jejunum - laparotomy - Meckel's scan - small bowel - Tc-99m pertechnetate
Introduction
Gastrointestinal (GI) hemangioma is a rare benign tumor accounting for approximately
5% of all GI neoplasms.[1],[2] Moreover, they are rarely found and suspected in the pediatric population, presenting
with melena. The major symptom of small bowel hemangioma is overt GI bleeding.[1],[2],[3] Clinical experience in detection and diagnosis of ectopic gastric mucosa and few
other congenital anomalies by Tc-99m pertechnetate scintigraphy is well known. However,
there are certainly false positives which may be incidentally detected on Meckel's
study, for example, vascular anomalies such as hypervascular tumors, arteriovenous
malformation, hemangioma, bowel ulcerations, Crohn's disease, ulcerative colitis,
appendicitis, intestinal obstruction, intussusception, and volvulus. These false-positive
results are thought to be due to hyperemia caused by these conditions.[4],[5],[6] Timely, accurate diagnosis and treatment of aforementioned lesions are critical
to the successful outcome. Herein, we describe a rare case of pediatric jejunal hemangioma
with anemia and melena, wherein the functional nature of Tc-99m pertechnetate scan
with single-photon emission computerized tomography/computerized tomography (SPECT-CT)
raised suspicion of the presence of highly vascular lesion.
Case Report
A 9-year-old male child born to a nonconsanguineous marriage couple was diagnosed
to be severely anemic during evaluation for diarrhea at 8 months of age, needing blood
transfusion. At around 1 year of age, the parents noted blackish discoloration of
stools. Similar episodes of blood in stools were noted at 2 years and again at 5 years
of age. He underwent multiple blood transfusions for severe anemia. The general physician
could not clinch the diagnosis. During evaluation, ultrasonogram of the abdomen, barium
meal follow through, and Meckel's scan without SPECT-CT were done and interpreted
as normal. He was asked by the family doctor to continue on iron supplements.
However, the patient now presented to the pediatric department of our tertiary care
center with generalized swelling, intermittent abdominal pain, fatigue, and exertional
dyspnea. Diagnosed as a severe anemia (hemoglobin [Hb]: 3.3 gm%), 250 ml of packed
red blood cells was transfused in view of low Hb. A provisional diagnosis of Meckel's
diverticulum with bleeding per rectum was made, and the patient was referred to the
nuclear medicine department for Tc-99m pertechnetate scintigraphy. Tc-99m pertechnetate
was injected 45 min after transfusion of intravenous ranitidine at the dose of 1 mg/kg
body weight for 20 min. Dynamic [Figure 1] Tc-99m pertechnetate scintigraphy depicted tracer accumulation in the right hypochondrium,
and static [Figure 2] images revealed gradual accumulation of tracer in the left hypochondrium and lumbar
region. It was a changing position which was suggestive of its small bowel origin.
SPECT with low-dose CT [Figure 3] localized the tracer focus in jejunal loops. The activity seen in the dynamic images
was confirmed to be in the duodenum. Based on planar and SPECT-CT findings, we suggested
a possible vascular lesion in the small bowel.
Figure 1 (a) Tc-99m pertechnetate scintigraphy was performed. Serial images (1 min/frame for
60 frames) depicted tracer accumulation in the right hypochondrium (multiple arrows)
along with tracer uptake in the stomach. (b) Tim-activity curve (a) of the stomach
(pink curve) depicts a rising curve. Time-activity curve of the lesion in the left
hypochondrium and lumbar region (green curve) shows a flat curve as the activity gradually
increased in intensity in delayed images only
Figure 2 Delayed static images (anterior views) taken at different time intervals 1 h (top
left), 1 h 15 min (top right), 2 h (lower left), and 2 h 30 min (lower right) confirm
the early findings. In addition, mild tracer uptake is noted in the left hypochondrium
and lumbar region which gradually increased in intensity (multiple arrows). The activity
described in dynamic images in the right hypochondrium merged with stomach activity
suggestive of its duodenal origin
Figure 3 Single-photon emission computerized tomography/computerized tomography (b and d)
fused with low-dose noncontrast computerized tomography (a and c) localized the tracer
focus in jejunal loops (multiple arrows)
Based on the findings, the child was taken up for diagnostic laparoscopy. Telescope
was inserted through 5-mm primary port. Diagnostic laparoscopy revealed around 12–15-cm
long hemangioma involving the distal jejunum [Figure 4]. There was no Meckel's diverticulum. Resection of involved segment of bowel and
end-to-end anastomosis of the involved segment was done by minilaparotomy. The lesion
was actively bleeding and invaded the wall of the small bowel. The histopathology
report reaffirmed our clinical diagnosis of hemangioma. On 2-week follow-up, the Hb
levels and stools were normal.
Figure 4 Operative specimen shows 12-15-cm long hemangioma involving the distal jejunum
In this case report, the authors wish to highlight the interestingly discovered rare
pediatric jejunal hemangioma on Tc-99m pertechnetate scan, suggesting a potential
diagnostic role.[7]
Pediatric patients rarely present with melena and anemia, due to intestinal hemangioma.
We wish to highlight that hemangioma may be considered as a differential diagnosis
in pediatric patients when we have ruled out the common causes, and the patient is
not responding to medical management. Hemangiomas usually have a syndromic association,
however this was not seen in our case.
The routine investigations in diagnostic armamentarium of GI hemangioma rely on scintigraphy,
computed tomography, magnetic resonance imaging, angiography, and abdominal ultrasonography.
These tools are accurate regardless of the patient's age or presentation. Depending
on the location and features of the lesion, esophagogastroduodenoscopy or colonoscopy
can be used to isolate a GI hemangioma.[8] However, in our case, as the scintigraphy findings were positive, the pediatric
surgeon without much ado went ahead with diagnostic laparoscopy and further laparoscopic-assisted
resection.[9]
As noted in the present case, it needs to be highlighted that the timing of appearance
of activity and delayed static images may help Nuclear medicine physicians differentiate
between false-positive causes from Meckel's diverticulum. It is a well-known fact
that Technetium accumulates in areas of increased perfusion or hyperemia. To our understanding,
this is the best possible explanation of the appearance of activity in a jejunal hemangioma
in our case.
To the best of our knowledge, this is a tenth case report of intestinal hemangioma
in the pediatric population.[10],[11],[12],[13],[14],[15],[16]
Conclusion
In our case, we conclude that Tc-99m pertechnetate scan with an added advantage of
SPECT-CT raised suspicion for a highly vascular lesion in the small bowel. Visceral
vascular anomalies have always posed a diagnostic challenge in the pediatric population.
In the presence of repeated anemia and melena, it is recommended to consider this
vascular anomaly in the differential diagnosis when other routine causes are ruled
out.
Declaration of patient consent
The authors certify that they have obtained all appropriate patient consent forms.
In the form the patient(s) has/have given his/her/their consent for his/her/their
images and other clinical information to be reported in the journal. The patients
understand that their names and initials will not be published and due efforts will
be made to conceal their identity, but anonymity cannot be guaranteed.
