Successful treatment of aberrant splenic artery aneurysm with a combination of coils embolization and covered stents

Aneurysms of an aberrant splenic artery originating from the superior mesenteric artery (SMA) are extremely rare; however, they are clinically important because possible rupture could be catastrophic. Since Ghatan et al. [1] reported the first case in 1967, we have only identified 31 cases reported in the English medical literature [1‐21] via a Medline database search from 1966 to August 2013 with key words “aneurysms and aberrant splenic artery or anomalous splenic artery”. The methods of treatment for this condition include surgical resection, minimally invasive techniques (include laparoscopic technique) and endovascular therapy. We present here four consecutive cases of aberrant splenic artery aneurysm (SAA) that were successfully treated with a combination of coils embolization and covered stent implantation between May 2012 to December 2013. This appears to be a promising minimally invasive approach in managing this rare entity. The purpose of this study is to review the literature and report our experience.

Case 1. A 37-year-old male patient was incidentally found to have a visceral aneurysm on abdominal ultrasound when he had a routine physical examination. A computed tomographic angiography (CTA) confirmed a 40 mm × 38 mm SAA near the origin of the SMA (Figure 1A,B). The aneurysm arose off the superior-lateral margin of the SMA and projected anteriorly and to the right. The SMA was widely patent and angiographic canalization of the celiac trunk did not reveal any branches supplying the spleen. The treatment procedure was performed under local anesthesia. A 6-French catheter sheath was cannulated from the right femoral artery and a pigtail angiographic catheter was put into the abdominal aortic artery via a 0.035 inch guidewire. A digital subtraction angiogram (DSA) showed an aneurysm at the root of an aberrant splenic artery that was arising 3 cm distal to the origin of the SMA and the distal splenic artery (SA) diameter being 6 mm (Figure 1C). Percutaneous transabdominal catheterization of the aneurysm was performed to cannulate the distal splenic artery as well as deposit coils. The distal splenic artery was cannulated through the lumen of the aneurysm. The catheter was then pulled back to the mid-splenic artery. Two 6 mm and one 8 mm coils were placed in the splenic artery. Two additional 6 mm coils were placed into the 8 mm coils to effect occlusion of the mid splenic artery. A repeated injection of contrast dye showed occlusion of the mid splenic artery. The left brachial artery was then punctured and cannulated with a 6-French catheter sheath from which a 5 F vertebral catheter was inserted into the abdominal aortic artery via a 0.035 inch guidewire because of the small angle of SMA. On sub-selective catheterization of the SMA we have also used 5 F vertebral catheter and curved Terumo guidewire (stiff type, Terumo Corporation, Japan). The covered stent (8 mm × 40 mm, Wallgraft, Boston Scientific, USA)was cannulated with a 6-French delivery introducer sheath via the 0.035 inch Terumo stiff type guidewire through the left brachial artery (Figure 1D). The patient remained asymptomatic, apyrexial and haemodynamically stable after the procedure and was discharged after 48 h of observation. A CT scan of the abdomen 7 days later demonstrated the aberrant splenic artery aneurysm sac was full of thrombi with a tiny endoleak. Follow-up abdominal CT scan in 12 months postoperatively confirmed an occluded aneurysm sac with marked shrinkage and patency of the SMA (Figure 1E,F). There was not any infarction or abscess formation in the spleen. No fever and the inflammatory markers were normal.Case 2. A 36-year-old female patient was admitted to our center just when the first case was discharged. She was diagnosed with mesenteric artery aneurysm at the outpatient department. But the CTA demonstrated a 36 mm × 32 mm splenic artery aneurysm near the origin of the SMA and the proximal caliber of the SAA was 11 mm (Figure 2A,B). The root of the aberrant splenic artery aneurysm was arising at 2 cm distal to the origin of the SMA. The treatment procedure was same as in Case one. Three 8 mm and one 10 mm coils were placed in the splenic artery. The covered stent (10 mm × 40 mm, Wallgraft, Boston Scientific, USA)was cannulated with a 10-French delivery introducer sheath via the 0.035 inch Terumo stiff type guidewire through the left brachial artery. The completion aortogram revealed no evidence of endoleak; disappearance of the aberrant splenic artery aneurysms lumen and patency of the SMA and the branches immediately after the stent deployment (Figure 2C,D). The patient was discharged in 48 h postoperatively and CTA demonstrated the aneurysm sac was full of thrombi with no endoleak on postoperative Day 9. Follow-up abdominal CT scan in 12 months postoperatively confirmed an occluded aneurysm sac with marked shrinkage (Figure 2E,F). There was no infarction or abscess formation in the spleen. No fever and the inflammatory markers were normal.Case 3. A 52-year-old male patient was found to have a visceral aneurysm on abdominal CT when he was diagnosed with gallbladder stone at a routing physical examination. CTA also demonstrated a 35 mm × 34 mm splenic artery aneurysm near the origin of the SMA and the proximal neck of the SAA was 5 mm (Figure 3A,B). The root of the aberrant splenic artery aneurysm was arising 30 mm distal to the origin of the SMA. The treatment procedure was same as in Case one and Case two. Three 7 mm and two 8 mm coils were placed in the splenic artery. The covered stent (10 mm × 50 mm, Wallgraft, Boston Scientific, USA)was cannulated with a 10-French delivery introducer sheath via the 0.035 inch Terumo stiff type guidewire through the left brachial artery. The completion aortogram revealed evidence of a small endoleak; disappearance of the aberrant splenic artery aneurysms lumen and patency of the SMA and the branches immediately after the stent deployment (Figure 3C,D). He was transferred to the Department of Hepatobiliary Surgery to perform laparoscopic cholecystectomy three days postoperatively. No complaint or complication was documented during 10 months follow-up. The CTA demonstrated that the splenic artery aneurysm sac was thrombosed with marked shrinkage; the SMA is patent with no infarction or abscess formation in the spleen (Figure 3E,F). No fever and the inflammatory markers were normal.Case 4. A 73-year-old male patient was found to have a splenic artery aneurysm on abdominal CTA. The CTA demonstrated a 49 mm × 59 mm splenic artery aneurysm near the origin of the SMA and the proximal neck of the SAA was 5 mm (Figure 4A,B). The root of the aberrant splenic artery aneurysm was arising 30 mm distal to the origin of the SMA. The treatment procedure was same as above 3 cases. Two 5 mm and two 8 mm coils were placed in the splenic artery. The covered stent (10 mm × 50 mm, Wallgraft, Boston Scientific, USA)was cannulated with a 10-French delivery introducer sheath via the 0.035 inch Terumo stiff type guidewire through the left brachial artery. The completion aortogram revealed no evidence of endoleak; disappearance of the aberrant splenic artery aneurysms lumen and patency of the SMA and the branches immediately after the stent deployment (Figure 4C,D). The patient was discharged and CTA demonstrated the aneurysm sac was full of thrombi with no endoleak on postoperative Day 5. No complaint or complication was documented during 6 months follow-up. The CTA demonstrated that the splenic artery aneurysm sac was thrombosed with marked shrinkage; the SMA is patent with no infarction or abscess formation in the spleen (Figure 4E,F). No fever and the inflammatory markers were normal.

Visceral artery aneurysms are rare but important vascular disease because of their potential for fatal rupture. In general, treatment of visceral artery aneurysms is considered for patients with the size >2.0 cm in diameter, or rapid growth in aneurysm size, or with symptoms attributable to the aneurysm and for women of childbearing age [22]. SAAs are the most common visceral artery aneurysms (58% [23] to 70% [22]). An aberrant splenic artery arising from the SMA, also known as the splenomesenteric trunk, is a rare anatomical variant seen in less than 1% of the population [2, 24]. In the process of embryogenesis, mislocation interrupt, incomplete interrupt or without interrupt of ventral longitudinal anastomosis may be the embryological mechanism of aberrant splenic artery. Aneurysms arising from an aberrant splenic artery are seen in a proximal position close to its origin [14]. This contrasts with the usual described location of these aneurysms in the mid to distal splenic artery in patients with normal anatomical origin of the artery [25, 26]. The proximal anatomical location makes the management of these aneuryms more challenging. Methods of treatment of this condition include surgical resection, minimally invasive techniques (include laparoscopic techniques) and endovascular therapy. Compare with open surgery, laparoscopic techniques and endovascular therapy, total endovascular treatment is safe and minimally invasive with rapid recovery. In our cases, coils embolization alone was excluded as coils migration into the SMA may occur and result in intestinal ischemia due to the high blood flow within the aneurysms, wide proximal caliber and short proximal neck of the SAA. The tortuous SA was angled to SMA and the short proximal neck of the SAA made it difficult to place a cover stent to SMA and SA. Given backflow of blood from other supplying arteries of the spleen, we did not select SMA cover stent placement alone. Jiang and colleagues [17] reported a successful endovascular stent-graft placement and coil embolization in a 67-year-old woman suffered from an anomalous SAA. We thought that this method might be the optimal treatment option for this rare entity. After 6 to 12 months follow-up, the splenic artery aneurysm sac was thrombosed with marked shrinkage and the SMA remained patent; no endoleak, any infarction of the spleen or abscess formation because the SA has sufficient backflow from the short gastric artery. Our successful treatment in 4 consecutive patients suggests that the combined coils embolization and cover stent implantation may be a valuable therapeutic alternative when treating this rare lesion. To our knowledge, this is the first report of a combined coils embolization and covered stents implantation for the treatment of 4 or more consecutive cases of this condition.

The authors believe that a combined coils embolization and covered stent implantation is a promising approach that seems to provide an effective, safe and minimally invasive option for the treatment of this very rare condition. Although early results are promising, further careful follow-up will be needed to determine the long-term clinical efficacy, safety and applicability of this technique.