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Surgical treatment of a dissecting aneurysm of the 

superior cerebellar artery: case report 

Florin Stefanescu1, Stefanita Dima2, Mugurel Petrinel Radoi1  

National Institute of Neurology and Neurovascular Diseases – Bucharest 
1Neurosurgical Department 
2Neuroradiological Department 

 

Abstract 

Dissecting aneurysm located in the 

peripheral region of the superior cerebellar 

artery is very rare. There is little experience 

regarding their surgical or endovascular 

treatment. We present the case of a peripheral 

dissecting superior cerebellar artery aneurysm 

treated by surgical clipping. 

Key words: dissecting peripheral 

aneurysm, superior cerebellar artery, surgical 

treatment. 

Introduction 

Aneurysms located on the superior 

cerebellar artery (SCA) are uncommon, 

accounting for only 0.2% of all intracranial 

aneurysms (11, 12, 17). Few cases of dissecting 

aneurysms involving the distal portion of the 

SCA have been previously described (14, 18). 

Due to the rarity of these aneurysms, there is 

little consensus in the literature about their 

assessment, treatment and prognosis. Owing 

the proximity to the vital structures and to the 

frequent inability to preserve the involved 

parent artery, surgery of these lesions is 

challenging. Endovascular therapeutic 

approach becomes an alternative method of 

treatment (3, 4). Along with a review of the 

existing literature on this matter, we described 

our experience with a case of peripheral SCA 

dissecting aneurysm treated by microsurgical 

clipping. 

Case report 

A 28-year-old woman was admitted to 

hospital presenting with a 4-day history of 

headache, dizziness, vomiting and diplopia. 

She had no relevant medical history. 

Neurological examination revealed only a 

right-sided fourth cranial nerve palsy, slight 

right dismetria and mild nuchal rigidity.  

Initial unenhanced cerebral computed 

tomography (CT) scan showed 

perimesencephalic and right cerebellopontine 

angle (CPA) subarachnoid hemorrhage 

(SAH). Four vessels cerebral angiogram 

revealed an irregular aneurysm, 3 mm. in 

diameter, on the right SCA, distal located of 

the basilar artery, in its 

cerebellomesencephalic (quadrigeminal) 

segment (Figure a). 
 



 

 

 

 

 
270          Stefanescu et al          Surgical treatment of a dissecting aneurysm of the superior cerebellar artery 

 

 

 

 

 

 

 

 
 

 
 

 

 
Figure a -  Initial cerebral angiographic images 

showed a 3 mm. irregular aneurysm (black arrow), 

distally developed on the right SCA (white arrow), in 

its quadrigeminal segment; Figure b -  Second 

preoperative cerebral angiography, performed 28 

days later, revealed a dissecting, partially thrombosed 

aneurysm (black arrow), with important changes of 

the aneurysm’s sac, which triple its size (10 mm.);  

Figure c - postoperative angiographic images 

demonstrate complete obliteration of the aneurysm 

with flow preservation in the parent artery (white 

arrow); Figure d - postoperative native CT scan, 

performed 2 months after surgery, showed clips 

artefacts in the right cerebellopontine angle. 

 

Initially, we considered this lesion as a 

mycotic peripheral aneurysm and the patient 

received antifungal therapy (fluconazole, 200 

mg once daily). Her condition did not improve 

continuing to present headache, vomiting and 

two episodes of loss of consciousness. Right-

sided cranial nerve palsy, right dismetria and 

slurred speech were still present at 4 weeks 

after the onset of the symptoms. A follow-up 

cerebral angiogram, performed 28 days after 

the first one, revealed an important growth of 

the aneurysms sac, which triple its size 

measuring 10 mm. in diameter (Figure b). We 



 

 

 

 

 
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considered it as a dissecting aneurysm and 

proposed surgery as method of treatment.  

We approached the aneurysm through a 

right lateral suboccipital craniotomy. The 

aneurysm was located distally on the SCA, 25 

mm from basilar artery, behind the brainstem 

perforating arteries. It was exposed on the 

lateral aspect of the brainstem along with the 

parent artery. After aneurysm reconstruction 

and without intra-operative complications, 

two curved aneurysm clips were applied to the 

neck in parallel to the SCA main trunk, 

preserving its patency. Postoperative 

angiography showed complete exclusion of the 

aneurysm with flow preservation in the distal 

right SCA (Figure c) 

Postoperative period was uneventful and 

no additional deficits were noted. The patient 

was discharged complaining only of mild 

diplopia, blurred vision and dizziness. Six 

months after surgery the patient was in good 

general condition, without neurologic motor 

deficits and complete improvement of 

diplopia and blurred vision. Non-contrast CT 

scan showed a normal postoperative aspect 

with clips artefacts in the right 

cerebellopontine angle (Figure d).  

Discussion 

The overall incidence of peripherally 

located aneurysms in the anterior cerebral 

artery distribution is between 7% and 9%, 

followed by 2%-7% for the middle cerebral 

artery location, and only 5% for the posterior 

circulation (8, 15). Usually, superior cerebellar 

artery aneurysms manifest with subarachnoid 

hemorrhage (SAH). A peripheral ruptured 

aneurysm of the superior cerebellar artery 

(SCA) should be considered when SAH 

predominates in perimesencephalic and 

superior cerebellar cisterns (6). Although 

many of these lesions are saccular, fusiform 

and dissecting aneurysms are not unusual (1, 

9, 13, 17). Despite being a distal lesion, a 

mycotic origin has seldom been proven in SCA 

aneurysm (9, 13). When presenting with SAH, 

the diagnosis of a dissecting aneurysm of the 

SCA can be difficult, as in our case, requiring 

serial angiograms to demonstrate progressive 

change in affected vascular segments. 

Distal SCA aneurysms may have distinctive 

clinical features in accordance with their 

location. The trochlear nerve, located beneath 

the tentorium, is vulnerable to injuries related 

to aneurysms involving the nearby posterior 

cerebral artery (P2 and P3 segments) or to SCA 

(4, 5, 17). 

According to a general consensus on SCA 

aneurysms, the presence of important 

perforating arteries and adjacent cranial 

nerves makes clipping of the SCA aneurysms a 

very challenging surgery. Many complications 

are related to lower cranial nerve dysfunction 

because of the intimate relationship between 

these aneurysms and cranial nerves (10, 14). In 

the case of dissecting SCA aneurysms surgical 

options include proximal occlusion, trapping, 

clip reconstruction and distal outflow 

occlusion (14, 15). In any event, care should be 

taken to preserve the parent artery and ventral 

brainstem perforating branches, and to 

mitigate the risk of brainstem infarction. 

When proximal occlusion or trapping are 

used, it is advisable to use combined distal 

revascularization techniques to prevent 

permanent ischemic damage to the brainstem 



 

 

 

 

 
272          Stefanescu et al          Surgical treatment of a dissecting aneurysm of the superior cerebellar artery 

 

 

 

 

 

 

 

and cerebellar hemisphere due to 

unpredictable collateral supply (14, 15, 16). 

The surgical approach depends on the site 

of the aneurysm. Aneurysm of the cisternal 

segments may be treated by the pterional 

transsylvian, subtemporal transtentorial or 

occipital transtentorial approach, whereas 

aneurysms of the cortical segments are usually 

clipped through suboccipital approach for the 

marginal branch, infratentorial 

supracerebellar or occipital transtentorial 

approach for the hemispheric branch, and 

suboccipital, infratentorial supracerebellar or 

occipital transtentorial approach for the 

vermian branch (18, 19). In our case, we 

preferred the lateral suboccipital approach 

because angiographic findings suggested that 

the aneurysm was partially trombosed 

indicating a larger lesion and it was located 

more distally. Dissection was carried out over 

the cerebellar hemisphere and the relationship 

between the brainstem and aneurysm was 

considered without difficulty. 

The endovascular therapy may be a good 

alternative for the treatment of SCA 

aneurysms. Endovascular occlusion with 

detachable coils is feasible with good 

angiographic and clinical results and with low 

morbidity (3, 7). Endovascular option includes 

coil embolization of narrow, mostly saccular 

aneurysms and stent-supported coil 

placement for wider, fusiform aneurysms (2).  

Conclusions 

Peripheral, dissecting aneurysms of the 

SCA are rare and there is little consensus over 

their surgical or endovascular management. 

When endovascular occlusion of the parent 

artery is performed the risk of the ischemic 

injury should always be considered. We 

presented the case of a peripheral SCA 

aneurysms which had radiological features 

suggestive of dissecting lesions, and 

considered that an experienced neurovascular 

surgeon team could clip the aneurysm with 

parent artery preservation. 

 

Correspondence 

Mugurel Petrinel Radoi MD, PhD 

Affiliation: National Institute of Neurology and 

Neurovascular Diseases - Bucharest, 

Neurosurgical Department, 

Postal Address: National Institute of Neurology and 

Neurovascular Diseases - Bucharest, 

Neurosurgical Department, 10-12 Berceni str., 

041902 Bucharest, Romania 

E-mail address: muguradoi@yahoo.com 

Telephone: 0040723527292 

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