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CASE REPORT

Endovascular repair of an abdominal aortic aneurysm in patient with horseshoe kidney: a case report

Eduardo Keller SaadiI; Luiz Henrique DussinII; Leandro de MouraIII; Alcides José ZAGOIV

DOI: 10.1590/S0102-76382008000300024

INTRODUCTION

Horseshoe kidney (HSK) is a complex congenital anomaly that results from the fusion of renal parenchyma (usually of the lower poles); it is associated with anomalous rotation of the urinary tract and vascular anomalies [1-4]. Its rate of occurrence ranges from 0.15% to 0.8%, which corresponds to 1 in every 400 people [5,6]. Horseshoe kidney associated with abdominal aortic aneurysm (AAA) is rare: it is found in about 1 in every 710 autopsied cases, and in only 0.12% of the patients that undergo AAA repair [1,7,8].

We report a case of an AAA patient, occluded right iliac artery aneurysm, HSK and impaired renal function. The patient was treated with endovascular repair (EVAR).


CASE REPORT

A 68-year-old woman with diabetes mellitus, arterial hypertension and coronary heart disease presented with recent-onset lower back pain (lasting about 10 days). During her physical examination, she presented a pulsatile abdominal mass, and pain reproduced by palpation. Right femoral pulse was weak, but left femoral pulse was normal. She had a history of smoking heavily (an average of 2 packs per day) and mild renal dysfunction (creatinine = 1.5 mg/dl; urea = 55 mg/dl). Multislice spiral CT angiography with 3-Dimensional reconstruction revealed a fusiform AAA (68mm diameter) and a horseshoe kidney (Figure 1). The proximal neck was 20mm (diameter) and 25mm long - but severely angulated (>60 degrees), as shown in Figure 2. The HSK was supplied by two renal arteries on the right side and three on the left. An occluded right common iliac artery aneurysm 48 mm in diameter was also found (Figure 3).


Fig. 1 - Computed tomography showing an abdominal aortic aneurysm (AAA) and horseshoe kidney


Fig. 2 - CT with 3D reconstruction demonstrating the AAA with an angulated proximal neck


Fig. 3 - Occluded right common iliac artery aneurysm



Endovascular repair (EVAR) was chosen. Both femoral arteries were dissected with the patient under spinal anesthesia. First, an attempt was made to pass a guidewire through the occluded right iliac artery. This was successfully achieved through the right common femoral artery. A 23 x 12mm x 16cm bifurcated Gore-Tex (Excluder) stent graft was chosen, and a proximal aortic extension (aortic extender 23 X 33 mm) was used to seal the angulated neck. The main trunk was deployed using an 18 Fr sheath through the left common femoral artery, and the contralateral limb was inserted through the right common femoral artery with a 12 Fr sheath. A 7-cm long iliac extension was placed in the right side to treat the right iliac artery aneurysm, covering the right internal iliac artery and landing at the external iliac artery (Figure 4). After that, the proximal aortic extender was deployed. One of the left polar renal arteries was occluded by the stent graft. After surgery, the patient's creatinine level rose to 2.5 mg/dl, but returned to baseline levels after 3 days. The patient was discharged from the hospital on the 6th postoperative day, and the recovery was uneventful. A postoperative CT scan showed good anatomic correction and a well-functioning HSK (Figures 5 and 6).


Fig. 4 - Right extension is covering the common iliac artery aneurysm and landing at the right external iliac artery at the end of the endovascular procedure


Fig. 5 - Post operative CT scan showing exclusion of the AAA and right iliac aneurysm and no endoleaks


Fig. 6 - Post operative axial CT scan demonstrating the two limbs of the stent-graft and a well impregnated horseshoe kidney and no leaks



DISCUSSION

The surgical treatment of AAA coexistent with HSK gives rise to several technical difficulties. The renal isthmus is located in front of the aneurysm and frequently needs to be divided to expose the aorta [9]. Moreover, ectopic renal arteries are often found in this condition [10]. Since 1991, EVAR has been used for the treatment of AAA coexistent with HSK in 13 cases, and uni-iliac stent grafting was used in most of them [11-19]. This method is easier and quicker because theres is no need to catheterize the contralateral limb.

The renal impact of aortic stent grafting in patients with HSK was analyzed using the EUROSTAR protocol. Out of 130 patients in whom aortic stent grafting was performed from 1995 to 2000, 4 had coexistent HSK and normal renal function. In all patients, the aneurysm was successfully excluded with the occlusion of one to four anomalous renal arteries. During follow-ups, no clinically significant renal impairment was detected [20]. Only one report in the literature describes a case of AAA coexistent with HSK and moderate renal impairment that was treated using EVAR with no subsequent renal complication [19]. Our patient had slight renal impairment: her renal function worsened shortly after the procedure, but then returned to baseline levels.

To our knowledge, this is the first case of an AAA coexistent with HSK and occlusion of the iliac artery described in the literature. In this case, access from the right femoral artery might have been limited. The surgical team was ready to perform left uni-iliac stent grafting and an extra-anatomical femoral-femoral bypass, but this was not necessary because a bifurcated graft was successfully deployed.

Horseshoe kidneys are rare, and even more so are their association with an abdominal aortic aneurysm that needs repair. In patients with the appropriate anatomy, EVAR is feasible despite predictable technical difficulties (angulated neck, iliac aneurysm and occlusion) and the possibility of renal impairment. In patients with ruptured AAA and HSK the EVAR treatment or a retroperitoneal approach should be strongly considered [21]. When faced with an AAA and HSK, two purposes should be intented: to safely repair the life-threatening aortic disease, and thus keep mortality and morbidity low, and to avoid renal complications. The choice of surgical technique should take into consideration the patient's characteristics and the surgeon's experience. Endovascular repair is an attractive option to treat patients with AAA and HSK.


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Article receive on Sunday, June 8, 2008

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