doi:10.1016/j.jvs.2008.02.026


A new anatomic variant of the aorta: A case report
Eric Hager, MD,a Gerald Isenberg, MD,a Carin Gonsalves, MD,b Neil Moudgill, MD,a Steve Dong, MD,a

and Paul DiMuzio, MD,a Philadelphia, Pa

Anatomic anomalies of the infrarenal aorta and iliac arteries are rare. We report a 39-year-old man who presented with
an ileo-cecal fistula secondary to Crohn disease. A computed tomography scan and subsequent arteriography noted his
aorta bifurcated immediately inferior to the main renal arteries, at the level of the second lumbar vertebrae. Associated
vascular anomalies included a common superior mesenteric artery/celiac axis plus multiple renal arteries. To our

knowledge, this is the first report of this aortic anomaly in the literature. ( J Vasc Surg 2008;48:213-5.)
Anomalies of the aortoiliac arteries are exceedingly rare,
with few case reports in the literature.1-4 Most vascular
variations are asymptomatic and noted incidentally upon
imaging for other medical concerns; when detected, how-
ever, further arterial imaging may be important for patient
care. The current imaging modalities of choice include
conventional arteriography and computed tomography an-
giography (CTA) with three-dimensional reconstruction.
We present a congenital vascular anomaly wherein the
aortic bifurcation arises just inferior to normally located
main renal arteries, with a dominant left common iliac
artery giving rise to the inferior mesenteric artery as well as
the paired lumbar arteries. To our knowledge, this anomaly
has not been previously reported.

CASE REPORT

A 39-year-old man presented with right flank pain, nausea,
and emesis for 2 weeks. He had no significant past medical or
surgical history, and his family history was unremarkable. A non-
pulsatile, tender mass was noted on examination of his right lower
quadrant. He had normal upper and lower extremity pulses with-
out evidence of a peripheral aneurysm.

A CT scan revealed an inflammatory mass at the terminal
ileum with creeping fat consistent with Crohn disease. Coinciden-
tally, his aortic bifurcation occurred immediately distal to the main
renal arteries, at the level of the second lumbar vertebra (Fig 1, a).
The right common iliac artery traveled in a circuitous route
through the right retroperitoneum (Fig 1, c) and ultimately bifur-
cated at the level of the superior acetabular rim (Fig 1, f ). The left
common iliac artery coursed straight into the pelvis, bifurcating
high at the fifth lumbar vertebra (Fig 1, e). Associated findings on
this scan included the inflammatory mass (Fig 1, d) and a malro-
tated left kidney (Fig 1, b).

He received outpatient treatment for the Crohn disease; how-
ever, the symptoms returned 6 weeks later. A CT scan revealed an
abscess with a fistula at the terminal ileum, indicating the need for
right hemicolectomy. Because the right common iliac artery
coursed within the planned operative field, an arteriogram was

From the Departments of Surgerya and Radiology,b Thomas Jefferson
University.

Competition of interest: none.
Reprint requests: Eric Hager, MD, Thomas Jefferson University Hospital,

111 S 11th St, Philadelphia, PA 19102 (e-mail: erichager777@yahoo.com).
0741-5214/$34.00
Copyright © 2008 by The Society for Vascular Surgery.

doi:10.1016/j.jvs.2008.02.026
performed to characterize further the aberrancy (Fig 2). In addi-
tion to the nonbranching right iliac artery (Fig 3, a) and high
bifurcation of the aorta, additional views noted:

1 . a common celiac axis-superior mesenteric artery trunk (Fig 3, b);
2. paired lumbar arteries off the dominant left iliac artery (Fig 3, b)

and a replaced right hepatic artery;
3. four left renal arteries and three right renal arteries;
4. the medial sacral artery branching off the left proximal common

iliac 1 cm proximal to the left renal artery; and
5. the low right iliac bifurcation at the acetabular rim and the

high left iliac bifurcation at the level of the fifth lumbar
vertebra (Fig 3, c ).

An uncomplicated right hemicolectomy was performed to
remove the nonperforated inflammatory mass. The right common
iliac artery coursed within the right retroperitoneum but was not
involved in the inflammatory process and did not require mobili-
zation. The patient recovered from surgery without vascular com-
plications.

DISCUSSION

The patient described exhibits numerous variants of
arterial anatomy. Most unusual is the iliac bifurcation lo-
cated at the second lumbar vertebrae with a circuitous
retroperitoneal course of the right common iliac artery. In
conjunction with a common celiac-superior mesenteric ar-
terial trunk, supernumerary renal arteries, and dominance
of the left common iliac artery, the patient demonstrates
truly unique anatomy.

Understanding of the normal embryologic develop-
ment of the abdominal aorta lends light in understanding
this anomaly. In the embryo, development of the aorta
begins in the third gestational week with the dorsal migra-
tion of two lines of cells from the endocardial mesenchyme.
These cells grow along the neural groove, eventually fusing
into a single aorta. Numerous segmental arteries form and
regress, with the 10th, 13th, and 22nd persisting to form
the celiac, superior mesenteric, and inferior mesenteric
arteries, respectively. The common iliac arteries form by
way of anastomoses between the allantoic and fifth lumbar
dorsal intersegmental arteries. The umbilical artery gives
rise to the internal iliac artery, and the external iliac artery
forms from a bud from the common iliac artery.5

In this patient, we hypothesize that a partial interrup-

tion of the normal fusion between the dorsal aorta gave rise

213

mailto:erichager777@yahoo.com


colon; (e) left iliac artery bifurcation at L5; (f) Right iliac artery

bifurcation of the aorta and sweeping right common iliac artery.

JOURNAL OF VASCULAR SURGERY
July 2008214 Hager et al
to a dominant left common iliac artery and with it, the
origin of the inferior mesenteric and paired lumbar arteries.
The natural history of this variation is unknown; however,
correlation between this and a replaced right subclavian
artery suggests that aneurysm formation might be ob-
served.6 As such, follow-up imaging may be important for
early detection of potential aneurysmal disease.

Although this variant is unique, the literature describes
known variations of iliac anatomy, with a reported inci-
dence of 6 in 8000 patients.3 Tamisier et al4 classified these
variants into three major categories: group 1 are anomalies
of origin or course, group 2 are hypoplasia or atresia with a
persistent sciatic artery, and group 3 are isolated hypoplasia
or atresia. Group 1 variants are usually asymptomatic and
coincidentally found. Group 2 have a high incidence of
aneurysm formation, typically presenting with acute occlu-
sion or embolism. Most published case reports involve this
classification.7-9 Group 3 often presents with claudication,
typically in the second through fifth decades of life, and may
necessitate surgical intervention.4,10

Humans may exhibit other abdominal aortic branch
anomalies, with most aberrancy involving the celiac axis
and mesenteric arteries. A study by Koops et al11 examined
604 patients who underwent celiac and superior mesenteric
angiography and found aberrancy in 21% of patients. The
most common variant cited was a replaced right hepatic
artery arising from the superior mesenteric artery in 12%
rather than the celiac axis, followed by a replaced left
hepatic artery emanating from the left gastric artery in 3%.
Celiac axis anatomy variants existed in 4% of patients, along
with a combination of these variants in 2%. These anoma-
lies, however, are exceedingly rare in conjunction with iliac

trast demonstrate various anomalies: (a) high bifurcation of
artery bifurcation at L3; (d) inflammatory mass of the right
bifurcation at the level of the sacrum.
Fig 1. Serial computed tomography scans with intravenous con
the aorta at L2; (b) malrotated left kidney; (c) right common iliac
Fig 2. Arteriogram with pelvic runoff demonstrates the high

anatomic variation and were not noted in any of the 604



JOURNAL OF VASCULAR SURGERY
Volume 48, Number 1 Hager et al 215
patients.11 This case demonstrates a common origin of
these arteries.

Herein we have described a unique variant of aortic anat-
omy, one that has not been described to our knowledge in the
literature. Associated vascular findings included multiple
bilateral renal arteries and a common celiac-mesenteric
trunk. Although it was discovered upon investigation of
right retroperitoneal pathology, we do not believe the
inflammatory process had any bearing on the patient’s
noted vascular anatomy. Long-term follow-up is suggested
given the possibility of aneurysmal degeneration.

REFERENCES

1. Oduro GD, Cope LH, Rogers IM. Case report: lower limb arterial
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ipsilateral iliac arteries. Clin Radiol 1992;45:215-7.

2. Koyama T, Kawada T, Kitanaka Y, Katagiri K, Ohno M, Ikeshita M,
et al. Congenital anomaly of the external iliac artery: a case report. J
Vasc Surg 2003;37:683-5.

Fig 3. Selective arteriograms show (a) circuitous ro
(b) common superior mesenteric/celiac trunk and paired
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3. Greeb J. Congenital anomalies of the iliofemoral artery. J Cardiovasc
Surg 1977;18:317-23.
4. Tamisier D, Melki JP, Cormier JM. Congenital anomalies of the exter-
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1990;4:510-4.

5. Lin P, Chaikof E. Embryology, anatomy and surgical exposure of the
great abdominal vessels. Surg Clin North Am 2000;80:417-33, xiv.

6. Austin EH, Wolfe WG. Aneurysm of aberrant subclavian artery with a
review of the literature [review]. J Vasc Surg 1985;2:571-7.

7. Williams LR, Flanigan DP, O’Connor RJ, Schuler JJ. Persistent sciatic
artery: clinical aspects and operative management. Am J Surg 1983;145:
687-93.

8. Martin KW, Hyde GL, McCready RA, Hull DA. Sciatic artery aneu-
rysms: report of three cases and review of literature. J Vasc Surg
1986;4:365-71.

9. McLellan GL, Morettin LB. Persistent sciatic artery: clinical, surgical
and angiographic aspects. Arch Surg 1982;117:812-22.

10. Howard JM, Goudelock WJ, Couves CM. Congenital atresia of the
external iliac artery. Arch Surg 1957;75:296-9.

11. Koops A, Wojciechowski B, Broering D, Adams G, Krupski-Berdein G.
Anatomic variations of the Hepatic Arteries in 604 selective celiac and
superior mesenteric Angiographies. Surg and Radiol Anat 2004;26:
239-44.

of the right common iliac artery with no branches,
ar arteries, and (c) bifurcation points of the left and right
ute
lumb
Submitted Dec 11, 2007; accepted Feb 14, 2008.


	A new anatomic variant of the aorta: A case report
	CASE REPORT
	DISCUSSION
	REFERENCES