tomography (CT). The patient underwent an open 
pyelonephrolithotomy [Figure 2] and a staghorn 
stone was extracted [Figure 3]. The post-operative 
course was smooth and the residual stones were 
managed by extracorporeal shock wave lithotripsy 
(ESWL).   

The horseshoe kidney is the most common of 
all renal fusion anomalies. It occurs in 0.25% of the 
population (1 in 400 persons). The horseshoe kidney, 
even though it produces no symptoms, is frequently 
found in association with other congenital anomalies 
including genital anomalies: hypospadias - 4%, 

Sultan Qaboos University Med J, November 2012, Vol. 12, Iss. 4, pp. 534-536, Epub. 20th Nov 12 
Submitted 10th Jan 12
Revision Req. 16th Apr 12, Revision recd. 22nd Apr 12
Accepted 8th May 12

Department of Surgery, Sultan Qaboos University Hospital, Muscat, Oman
E-mail: msalmarhoon@gmail.com 

حصاة مرجانية يف كلية حدوة احلصان
حممد املرهون

Staghorn Calculus in a Horseshoe Kidney
Mohammed S. Al-Marhoon

INTERESTING MEDICAL IMAGE

A 52-year-old male patient presented with bilateral loin pain of four months’ duration. Twenty years before, he had had 
surgery for kidney stone disease. An abdominal 
examination revealed a scar from the previous 
surgery on his left side. Investigations showed 
microscopic haematuria with no growth on urine 
culture. His serum creatinine and haemoglobin were 
normal. A plain abdominal X-ray of the kidneys, 
ureter, and bladder (KUB) [Figure 1] showed bilateral 
renal stones. The detailed renal anatomy and the 
extent of renal stones were delineated by computed 

Figure 1: Plain X-ray showing staghorn calculus in a horseshoe kidney (black arrows).



Mohammed S. Al-Marhoon

Interesting Medical Image | 535

undescended testes - 4%, bicornuate uterus - 7% 
and septate vagina - 7%; urinary collecting system 
anomalies: ureteral duplication - 10%, ureteropelvic 
junction obstruction - 20%, vesicoureteral reflux - 
50%; renal parenchymal abnormalities: multicystic 
dysplasia - 1%, autosomal recessive polycystic 
kidney - 1%, and metabolic derangements in patients 
with stones in 50%: hypercalciuria, hyperoxaluria, 
hypocitraturia, hypouricuria.1 

The association of horseshoe kidneys with 
staghorn calculus formation is rare. The reported 
cases in the literature of a staghorn calculi in a 
horseshoe kidneys were 19,2 3,3 8,4 and 35 cases. 
Percutaneous extraction of stones from horseshoe 
kidneys has been done safely and is considered 
the standard of care. Prado et al. treated 8 patients 
with staghorn calculi in a horseshoe kidney by 
percutaneous nephrolithotomy (PCNL).4 Complete 
stone clearance was achieved in all the patients. 
Only one patient suffered a long-term urinary tract 
infection of three months’ duration, and temporary 
deterioration in renal function. It was concluded 
that PCNL, performed after an imaging study and 
careful assessment of the renal anatomy and related 
structures, can be a safe and effective monotherapy 
for patients with staghorn calculi in horseshoes 
kidney. Liatsikos et al., in a study of 15 patients 
with 17 staghorn calculi in horseshoe kidneys 
who were treated by PCNL, reported an overall 

stone-free rate of 82%, with a major and minor 
complication rate of 20 and 46.6%, respectively.6 
Raj et al. used PCNL for the treatment of 37 
patients with renal calculi in a horseshoe kidney (3 
staghorn) and concluded that PCNL is an effective 
means of kidney stone management in this complex 
patient population.3 However, PCNL is technically 
challenging, usually requiring upper pole access and 
flexible nephroscopy due to the altered anatomical 
relationships of the fused renal units. 

The present case was managed by open surgery 
rather than PCNL due to the surgeon’s preference. 
In addition, it has been shown that staghorn 
calculi are associated with a lower stone-free rate 
after percutaneous nephrolithotomy.2 A patient 
with staghorn calculi in a horseshoe kidney was 
45 times more likely to have a lower stone-free 
rate after percutaneous nephrolithotomy than a 
patient without staghorn calculi in the horseshoe 
kidney. Therefore, open surgery still has a role in 
the treatment of horseshoe kidneys with staghorn 
calculus when indicated. 

References
1. Boatman DL, Kolln CP, Flocks RH. Congenital 

anomalies associated with horseshoe kidney. J Urol 
1972; 107:205–7.

2. Skolarikos A, Binbay M, Bisas A, Sari E, Bourdoumis 
A, Tefekli A, et al. Percutaneous nephrolithotomy in 
horseshoe kidneys: Factors affecting stone-free rate. 
J Urol 2011; 186:1894–8.

3. Raj GV, Auge BK, Weizer AZ, Denstedt JD, Watterson 

Figure 3: The staghorn calculus extracted from the 
horseshoe kidney.

 
Figure 2: Intra-operative view of the horseshoe kidney 
(vessel loop around renal artery).



Staghorn Calculus in a Horseshoe Kidney

536 | SQU Medical Journal, November 2012, Volume 12, Issue 4

JD, Beiko DT, et al. Percutaneous management 
of calculi within horseshoe kidneys. J Urol 2003; 
170:48–51.

4. Prado N, Ide E, Batista AJ. Management of 
staghorn calculi in horshoes kidney. Br J Urol 1997; 
80:332.  

5. Shokeir AA, El-Nahas AR, Shoma AM, Eraky I, 
El-Kenawy M, Mokhtar A, et al. Percutaneous 
nephrolithotomy in treatment of large stones with 
horseshoe kidneys. Urology 2004; 64:426–9.

6. Liatsikos EN, Kallidonis P, Stolzenburg JU, Ost M, 
Keeley F, Traxer O, et al. Percutaneous management 
of staghorn calculi in horseshoe kidneys: A multi-
institutional experience. J Endourol 2010; 24:531–6.