Flat panel detector-CT with endovenous injection. Description of a novel technique for obtaining cerebral arteries imaging: Technical note


Romanian Neurosurgery  |  Volume XXXI  |  Number 3 |  2017  |  July-September 

 
Article 

 
Cirsoid Aneurysm of the Scalp: a case report  

 

Faran Ahmad, Deepak Kumar Singh, Hanuman Prasad Prajapati, Anuj Chhabra 
INDIA 

 

 

 

DOI: 10.1515/romneu-2017-0069 
 



 
 
 
 
 
426 | Ahmad et al - Cirsoid Aneurysm of the Scalp 

 

 
 
 
 
 
 

DOI: 10.1515/romneu-2017-0069   

Cirsoid Aneurysm of the Scalp: a case report 

Faran Ahmad, Deepak Kumar Singh, Hanuman Prasad Prajapati, 
Anuj Chhabra 

Department of Neurosurgery, Dr RML IMS Lucknow Uttar Pradesh, INDIA 

 
Abstract: Cirsoid aneurysms (arteriovenous malformations [AVMs]) are Anomalous 
fistulous arteriovenous communications of scalp with ill-defined natural course that are 
rarely encountered in neurosurgery. Patients with AVM of the scalp present clinically 
with headache and either a small innocuous-looking subcutaneous scalp lump or a large, 
pulsatile mass with or without bruit, which has a propensity to massive hemorrhage. 
Complex vascular anatomy and interconnections and high shunt flow make their 
management difficult. We report a rare case of a 40-year-old man who presented with a 
swelling over his occipital region that progressively enlarged over the course of 6 years. 
Being high flow shunt surgical excision was attempted. 
Key words: AVM- arteriovenous malformation, scalp, high flow shunt, occipital, cirsoid, 
Arterio venous fistula 

 
Introduction 

Aberrant persistence of primitive 
arteriovenous interconnections due to 
defective differentiation of the primary 
vascular complex leads to formation of 
arteriovenous malformations (AVM).AVM of 
scalp are rare occurrences among vascular 
lesions. Various names being used to describe 
the vascular malformations of the scalp 
include aneurysm cirsoid, aneurysma 
serpentinum, aneurysm racemosum, 
plexiform angioma, arteriovenous fistula and 
arteriovenous malformation [1]. 
Arteriovenous fistula was first described by 
Hunter in 1757. [2] The term cirsoid aneurysm 

was applied to vascular malformations of the 
scalp in 1833 by Brecht [2] and is used to 
describe a fistulous connection between the 
arterial feeding vessels of the scalp and the 
draining veins without an intervening 
capillary bed. AVM are composed of complex 
tangle of feeding arteries and draining veins, 
without an intervening capillary bed forming a 
‘nidus’located within the subcutaneous layer. 
The draining veins often are dilated owing to 
the high velocity of blood flow through the 
fistulae. The location of scalp arteriovenous 
fistulas is roughly evenly distributed among 
the frontal, temporal and parietal regions [1]. 
The incidence of cirsoid aneurysms of scalp is 
rare and infrequently encountered by the 



 
 
 
 
 

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neurosurgeon. [3] They are usually congenital 
in etiology however traumatic fistulas have 
also been described.. Whatever the 
cause,Clinically patient presents usually with 
an innocuous looking subcutaneous scalp 
lump or a visible large, pulsatile scalp mass 
associated with headache, tinnitus and 
hemorrhage. [4] A clear understanding of the 
diagnostic and treatment algorithms involved 
with AVM management is imperative, because 
AVMs are a cause of haemorrhage in young 
adults. Surgical treatment is primarily 
indicated in order to prevent bleeding and 
haemorrhagic complication along with 
resolution of cosmetic problems [1].  However  
the treatment of these lesions is difficult 
because of their complex vascular anatomy, 
high shunt flow, and cosmetic disfigurement. 
The treatment options of these lesions include 
endovascular treatment, direct intralesional 
injection of sclerosing agents, ligation of 
feeders, and surgical excision. [5–10] 

In this case report we describe the clinical 
features and discuss the results of the surgical 
management of scalp vascular malformations. 

Case report 
A 40 year male complained of slowly 

progressive swelling localized over right 
occipital region of the scalp since around 5-7 
years duration. It was associated with 
occasional headache and tinnitus. The 
swelling had been gradually increasing in size 
since 6 yrs. and was now pulsatile. There was 
no previous history of trauma or head injury. 
No history of recurrent massive bleeding, any 
visual disturbances or paresis. Neurological 
examination was normal. There was no other 

systemic abnormality detected. Local 
examination showed large swelling around 
6cm-7cm in diameter, in midline extending 
over the right occipital region (Figure 1). The 
swelling was densely  adherent to scalp. Local 
temperature was not raised. The swelling was 
pulsatile, nontender and soft in consistency. A 
bruit was also demonstrated over the swelling. 
Multiple tortuous & prominent, intensely 
enhancing vessels along occipital surface of the 
scalp was evident on Computerised 
tomography scan. MRI scan revealed a 
vascular lesion under the scalp in the occipital 
region containing tortuous dilated high 
contrast filled vessels. Digital subtraction 
angiography showed large occipital complex 
vascular network with simultaneous early 
filling of venous circulation in the scalp 
confirming the presence of an arteriovenous 
fistula (AVM) (Figure 2). The AVM had 
feeding arteries from bilateral occipital 
branches of external carotid arteries. Right 
occipital artery is more hypertrophied, dilated, 
and tortuous. Venous drainage appears from 
the communicating emissary veins to the 
internal jugular veins, and few tributaries to 
the external jugular veins. It appeared fairly 
high flow arterio-venous communication. 
There was no evidence of communication with 
intracranial circulation showed normal 
intracerebral circulation.  

Surgical procedure 
En block surgical excision of the lesion 

was planned. The patient was positioned with 
head elevated 30 degrees above the heart 
level. A question mark scalp flap was planned. 
After infiltrating 2% lignocaine with 
adrenaline, scalp incision was made in short 



 
 
 
 
 
428 | Ahmad et al - Cirsoid Aneurysm of the Scalp 

 

 
 
 
 
 
 

segments, ligating the feeding vessels and 
draining veins as they were encountered. 
Once the scalp flap was raised, the bleeding 
from the bone was controlled with bone wax 
and monopolar diathermy. After complete 
devascularization, the lesion along with 
pericranium, galea was excised 
circumferentially from the subcutaneous 
tissue with the use of bipolar diathermy and 
sharp dissection without breaching the skin 
(Figure 3 a,b). Intra-op, it was very difficult to 
get plane of dissection due to very large 
tortuous venous varix. There was no 
significant blood loss during surgery. On 
microscopic examinations, the 
histopathological specimen contained 
various well-developed arteries and dilated 
veins in the connecting tissue. Repeat 
computed tomography (CT) angiogram 
showed complete disappearance of AVM 
without any remnant. The patient was 
advised to continue follow-up. On 
microscopic examinations, the 
histopathological specimen contained 
various well-developed arteries and dilated 
veins in the connecting tissue. Endothelial 
cells and perivascular cells in arteries were 
positive with immunohistological staining 
for vascular endothelial growth factor 
(VEGF); the major feeding arteries and 
draining vein were VEGF-negative. There 
was no recurrence of fistula at the 3-month 
follow-up examination (Figure 3c). 

 
Figure 1 - Rear view pre-op photograph of the 

patient 
 

 
Figure 2 - Pre-op digital subtraction angiography 

image 
 

 
A 



 
 
 
 
 

Romanian Neurosurgery (2017) XXXI 3: 426 - 430 | 429 

 

 
 
 
 
 
 

 
B 

 
C 

Figure 3 - Intra-op photograph before ligation of 
feeding arteries (a) and en block excision of the lesion 
(b). Post-op photograph of the patient after surgery (c) 

Discussion 
Aberrant persistence of primitive 

arteriovenous interconnections is known as 
AVM. Scalp AVM are rare despite the intense 
vascularity of scalp and relatively high 
frequency of trauma to this region. [3,10] The 
etiology of cirsoid aneurysm is still 
controversial. It is accepted that it may be 
either congenital or traumatic. Congenital was 

more common in large series published in the 
literature. [11,12]. In our case, traumatic 
etiology was the probable initiating factor. Due 
to the large size and complexity of the lesion, 
en block excision was planned. Ligation of 
feeding vessels followed by resection of the 
lesion has occasionally met with success. 
Multiple treatment schemes have been 
described and, as yet, no standard form of 
therapy exists. Some of the reported 
treatments include radiation therapy, 
electrothrombosis, scalp tourniquet, scalp 
compression with pads and springs, direct 
injection with alcohol, and embolization. 
[11,13]. Surgical resection of the fistula is 
usually successful, as was for this patient. 
Direct surgical excision risks severe 
intraoperative blood loss. The abnormal 
vascular channel dilatation over the scalp often 
results in deformity of the scalp that is usually 
not lifethreatening unless it causes 
hemorrhage but can lead to substantial 
cosmetic and social disturbances. [8,13] Scalp 
arteriovenous fistulas are roughly evenly 
distributed among the frontal, temporal, and 
parietal regions. Occipital region scalp AVMs 
have been remotely reported, which is found 
in our present case report. The AVM feeder 
vessels mainly arise from the subcutaneous 
tissue layer of the scalp. The source of feeder 
arteries most frequently includes the external 
carotid, occipital, and supraorbital arteries. 
Clinical manifestations relate to the size of 
fistula, and patient may present with loud 
bruit, hemorrhage, headache, and, in severe 
cases, scalp necrosis. [8]. The lesion usually 
begins as small subcutaneous lump, which, 
over a period of time, evolves into grotesque, 



 
 
 
 
 
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deforming mass. Digital subtraction 
angiography is the gold standard investigation 
for these lesions, which provides a road map of 
arterial supply and venous drainage. [3] 
Although the lesion lies in the subcutaneous 
layer of scalp, the pericranial component of the 
lesion is of surgical importance [2]. An 
important part of surgery is the excision of 
pericranial component with control of bone 
bleeding using bone wax. Endovascular and 
percutaneous occlusions of the fistulas have 
been described. The results of endovascular 
occlusion are dependent on the 
angioarchitecture of the fistula, the supplying 
arteries, and draining venous structures. 
Arterial approaches may not often be 
successful in occluding the entire fistula due to 
the problem of multiple feeding arteries. In 
our case, complex multiple feeding arteries 
were present, so endovascular approach was 
not considered. Recurrence has been reported 
as late as 18 years after complete surgical 
excision [14]. Hence, regular follow-up is 
recommended. 
 
Correspondence 
Dr. Faran Ahmad 
Department of Neurosurgery, Dr RML IMS 
Lucknow, Uttar Pradesh (India) 
Email-faran2312@gmail.com 

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