CASE REPORT

Multiple renal arteries
a pitfall in

renovascular
• •Intervention

Basil J Sher
FCRad(D)SA

Ian C Duncan
FFRad(D)SA

SunninghilI Medicallnslitule
Sandton

Abstract
We describe how the presence of mul-
tiple renal arteries complicated the
diagnosis of a major renal arterial
injury following a lower thoracic pen-
etrating injury. Incomplete assess-
ment of the arteriographic evidence
obtained during any invasive renal
vascular investigation could result in a
missed diagnosis.

Introduction
The identification of multiple

renal arteries has traditionally been of
major importance to the renal sur-
geon, particularly for the pre-plan-
ning of renal transplantation. I As we
show here this can also present a pit-
fall for the interventional radiologist
when trying to isolate a vascular
abnormality such as a focal renal arte-
rial injury.

Case report
A 51-year-old man presented 7

days after a stab wound of the lower
left chest posteriorly with continuous
macroscopic haematuria. He was
referred to our unit for arteriograph-
ic assessment of the kidneys and
immediate endovascular manage-
ment of any appropriate vascular
injury thus discovered. An abdominal
CT scan allegedly showed a major
renal injury with a perinephric
haematoma. This scan was unfortu-
nately not available to us for personal
review at the time of the angiogram.

Upon admission to the angiogra-
phy suite the patient was stable
haemodynarnically. Obvious macro-
scopic haematuria was seen in the uri-
nary catheter drainage bag. An initial
abdominal aortic flush run was per-
formed. This showed a normal intact
right kidney and no obvious abnor-
mality of the left kidney but did indi-
cate the presence of multiple left renal
arteries (Fig. 1). The exact number of
these could not be assessed and the left
renal nephrogram was poorly visu-
alised mainly due to image degrada-
tion due to cardiac, respiratory and
bowel motion artefact. Selective
catheterisation of the left renal arteries
was then undertaken using a 4F C2
catheter over a hydrophilic guidewire.
The first renal artery catheterised sup-

40 SA JOURNAL OF RADIOLOGY • June 2003

Fig. 1. Digital subtraction flush abdominal aor-
togram suggesting the presence of two left sided
renal arteries. The quality of the image is some-
what degraded by bowel gas and bowel and res-
piratory motion.

plied the lower pole and other than
mild catheter-induced spasm
appeared normal (Fig. 2A). The sec-
ond artery catheterised supplied areas
of the middle and upper pole regions
of the kidney (Fig. 2B). An irregular-
ly contoured parenchymal outline was
seen which was initially considered to
be due to the perinephric haematoma.
The angiogram had not revealed any
visible intrarenal vascular injury at
this stage, and it was decided at this
point to stop the procedure. However,
after further analysis of the available
images it was decided that the sum-
mated nephrographic pattern was
incomplete and that further attempts
be made to try and identify other left
renal branches that might reveal a sig-
nificant vascular injury. A third renal
artery was thus eventually found.
Selective angiography of this vessel
showed filling of a pseudoaneurysm
arising from this branch intrarenally
(Fig. 3A) This vessel was then
embolised using two 3 x 2 mm fibered
Gianturco coils (Fig. 3B). The patient
made an uneventful recovery there-
after with no further haematuria.



CASE REPORT

Fig. 2. Selective lower (2A) and upper (28) muiti-
pie renal arteriograms.
Visual summation of the associated nephrograms
led initially to an erroneous interpretation of a kid-
ney possibly distorted by the perinephric
haematoma or renal lacerations.

Discussion
Embryologically the definitive

renal artery is not recognisable until
the third month of fetal life. It arises
from the most caudal of the three
suprarenal arteries, all of which repre-
sent persistent mesonephric or lateral
splanchnic arteries. Additional aber-
rant renal arteries thus represent per-
sistent mesonephric arteries."

Aberrant renal arteries can arise
from the aorta anywhere between Tll
and L4 and occur in approximately
25% of all individuals.' They are
commoner on the left than on the
right.'

There are two main types of mul-
tiple renal arteries.

Fig. 3. A more careful search yielded a third renal
artery harbouring a pseudoaneurysm and
calyceal fistula related to one of Its parenchymal
branches (3A). The offending branch was then
successfully occluded using two Gianturco coils
(38).

1. Polar arteries: Usually to the
upper pole. These may arise from the
main renal artery, from a hilar artery
or directly from the aorta. They pass
directly into the renal parenchyma
without passing through the renal
hilum.

2. Supplementary arteries: Usually
to me lower pole and arising from me
aorta near the origin of the main renal
artery (77%). These pass through the
renal hilum into the parenchyma.
They may occasionally also arise from
other aortic branches including me
iliac, superior and inferior mesenteric,
coeliac, middle colic, lumbar or medi-
al sacral arteries.

Further supply to small areas of

41 SA JOURNAL OF RADIOLOGY • June 2003

I
the parenchyma can come from the
capsular arteries as well. Each aberrant
artery will supply its own area of the
renal parenchyma, with little or no
cross-supply between these separate
compartments. Traditionally this
anatomical information has been of
great importance to the renal surgeon,
particularly when planning renal
transplant surgery,' Here we have
shown that the presence of these same
anatomical variants can also provide a
significant pitfall for the intervention-
al radiologist in attempting to identify
and eventually treat by endovascular
means a lesion affecting me intrarenal
arteries.

Several important technical issues
have been raised by this case :

1. The quality of the images
obtained during a digital subtraction
arteriogram of the abdomen should
always be optimised as much as possi-
ble, including sedation or full anaes-
thesia for restless patients, smooth
muscle relaxants to paralyse the
bowel and use of apnoea during me
image acquisitions where possible.

2. An initial flush aortogram is
essential and where possible should
use a large enough field of view to
include both nephrograms. The com-
pleteness of these nephrograms
should be assessed at this point. If
these are complete, then me nephro-
grams of selective renal arterial
catheterisation of multiple renal arter-
ies should, upon visually summating
all their component parts, show a sim-
ilar complete nephrogram.

3. In me face of overwhelming
clinical evidence of a significant renal
injury me study is not considered
complete until the pathology is found
or fully excluded, which may require a
prolonged search for all accessory
renal arteries present.



CASE REPORT

In conclusion, our case demon-
strates an important diagnostic pitfall
associated with multiple renal arteries
supplying a kidney. In the face of
overwhelming clinical evidence of a
major renal injury and two negative
selective renal branch arteriograms of
the same kidney, proper angiographic
interpretation and persistence led to
the discovery of a third vessel har-

bouring a significant arterial injury. It
is vital that in all similar circumstances
the nephrograms are visually sum-
mated, and that all accessory renal
arteries be thus identified and exam-
ined accordingly until a complete
renal vascular anatomical study is
achieved.

References
I. Pozniak MA, Balison DJ, Lee IT, Tambeaux RH,

Vehling DT, Moon TD. cr angiography of
potential renal transplant donors. Radiographies
1998; 18: 567-587.

2. Williams PL, Warwick R, eds. Gray's Anatomy.
36th ed. London: Churchill Livingstone, 1980:
212-213.

3. Carlson BM, ed. Pattens' Foundations of
Embryology. 4th ed. New York: McGraw-HilI,
1981: 495-497.

4. Davidson AI, Hartman DS, eds. Radiology of the .
Kidney and Urinary Tract. 2nd ed. Philadelphia:
WE Saunders, 1994: 94.

42 SA JOURNAL OF RADIOLOGY. June 2003