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 

 
Post traumatic vertebro basilar dissection: case 

report and review of literature  

 

Karthikeyan Y.R., Sanjeev Chopra, Somnath Sharma, Devendra Purohit 
INDIA 

 

 

 

DOI: 10.1515/romneu-2017-0051 
 



 
 
 
 
 
310 | Karthikeyan et al - Post traumatic vertebro basilar dissection 

 

 
 
 
 
 
 

DOI: 10.1515/romneu-2017-0051 

Post traumatic vertebro basilar dissection: case report and 
review of literature 

Karthikeyan Y.R., Sanjeev Chopra, Somnath Sharma, 
Devendra Purohit 

Department of Neurosurgery, SMS Medical College, Jaipur, INDIA 

 
Abstract: Posterior circulation territory stroke following mild head injury is a known 
entity although rarely seen. Numerous case reports appear in literature from time to time 
highlighting this complication. Blunt trauma to the head and neck possibly causes injury 
to the vertebrobasilar system in the form of angiorrhexis, subintimal, intramural and 
perivascular hemorrhage which causes secondary narrowing of the injured vessel. These 
processes can be complicated by progressive thrombosis & vascular occlusion.  Here we 
are reporting a case of post traumatic vertebra-basilar dissection causing bilateral 
cerebellar and brainstem infarct. 
Key words: vertebral artery dissection, post traumatic, head injury, posterior fossa infarct 

 
Introduction 

Blunt cerebro vascular injury (BCVI) 
encompasses a spectrum of disease processes 
due to damage of the vertebral and carotid 
arteries. In the current era of trauma epidemic 
with increasing number of high velocity motor 
vehicle accidents, these injuries become more 
relevant. They may present immediately or in 
a delayed fashion. High index of suspicion and 
thorough screening is of utmost importance. 
Here we report one such case with the review 
of literature. 

Case summary 
A 50 year old gentleman presented to us 

with a history of high speed motor vehicle 

accident. On examination the patient was 
unconscious, intubated, had no respiratory 
effort and no motor response to pain. No 
obvious external injury was seen except for 
lacerated wound over the forehead. Pupils 
were bilaterally pinpoint and not reacting to 
light. NCCT brain showed large acute infarcts 
involving bilateral cerebellar hemispheres, 
medulla, pons and mid brain (Figure 1). Focal 
acute infarcts were also seen in the left 
thalamus and left medial temporal lobe. CT 
cervical spine showed fracture of the clivus and 
the occipital bone in the midline extending 
upto the groove for the vertebral artery 
bilaterally. Fracture of left transverse process 
of C2 vertebra was also noted. CECT chest and 



 
 
 
 
 

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abdomen was unremarkable. In view of the 
suspected vascular injury, a four vessel carotid 
angiography was contemplated. There was no 
enhancement in V3 and V4 segment of left 
vertebral artery and almost the entire length of 
basilar artery sparing its tip suggestive of 
complete occlusion with a likely possibility of 
post traumatic dissection.V1 and V2 segments 
were of normal caliber with no evidence of 

filling defect suggestive of thrombosis (Figure 
2 and Figure 4). Lt vertebral artery was seen to 
arise from the aortic arch. Right vertebral 
artery was of normal caliber (Figure 3). Both 
the common carotids and bilateral internal 
and external carotids were of normal caliber. 
The patient was managed conservatively but 
he succumbed to his condition within 24 hours 
of admission. 

 

 
Figure 1 - Computed tomography brain showing large acute infarcts involving bilateral cerebellar hemispheres 

and brain stem 
 

 



 
 
 
 
 
312 | Karthikeyan et al - Post traumatic vertebro basilar dissection 

 

 
 
 
 
 
 

 
Figure 2 

A: CT angiography brain showing no enhancement 
in V3 and V4 segment of left vertebral artery and 

almost the entire length of basilar artery.normal right 
vertebral artery 

B: Anomalous origin of left vertebral artery from the 
aortic arch 

 

 
Figure 3 - Normal right vertebral artery 

 

 
Figure 4 - Absent flow in  V3,V4 segment of left 

vertebral artery 
 

Discussion 
Blunt cerebro vascular injury (BCVI) 

encompasses a spectrum of disease processes 
due to damage of the vertebral and carotid 
arteries. The reported frequency is between 
0.5% and 1.55% of all cases of blunt trauma. 
The common causes of BCVI include motor 
vehicle collision followed by a fall from height. 
Extensive skull base fracture, cervical fracture, 
cervical soft tissue hematoma and facial 
fracture are common high risk factors for 
BCVI. Of great clinical significance is that 
BCVI can occur even after a minor impact 
such as cervical traction, contact sports and 
chiropractic manipulation.  

Neck vessel injury is probably an under 
diagnosed complication of head or cervical 
spine trauma. A high index of suspicion 
followed by early recognition of these 



 
 
 
 
 

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complications is absolutely essential to prevent 
poor outcomes. The commonest site of 
vertebral artery dissection seems to occur at 
C1-C2. (1) Most common fracture patterns 
described are subluxations, upper C1 to C3 
body fractures and transverse foramen 
fractures, while spinous process fractures of 
the lower cervical spine are rarely reported. (5) 
In our patient we found fracture of the left 
transverse process of C2 vertebra. 

Predisposing conditions include 
infections, fibromuscular dysplasia, hereditary 
connective tissue diseases, 
hyperhomocysteinemia and migraine. 
Dissections are commonly sub-intimal and 
cause stenosis (48%) or occlusion (35%). Sub-
adventitial dissections form pseudo 
aneurysms (17%), which can rupture 
intracranially causing sub-arachnoid 
hemorrhage. (3) 

Posterior fossa infarcts following trauma 
are often a result of vascular dissections, 
vertebrobasilar spasm, embolization or 
systemic hypoperfusion. Posterior inferior 
cerebellar artery (PICA) territory is the 
commonest territory involved followed by 
superior cerebellar infarcts. (6) 

The mechanism of injury in patients with 
blunt trauma is not entirely clear. 
Hyperextension and rotation, direct blows to 
the neck, intraoral trauma and basilar or other 
skull fractures have been suggested as possible 
mechanisms. In a patient with polytrauma, it 
is often difficult to ascertain the exact 
mechanism of injury. It seems likely that 

stretching and twisting of the vessels or 
impalement against the transverse processes of 
the vertebral bodies or a fractured bony 
fragment may result in these injuries. No 
definite evidence exists to support these 
hypotheses. Whether a local deficiency in 
elastic fibers or other structural abnormalities 
may account for the frequent location of blunt 
injuries in the ICA has not been established. 
(2) In our case the mechanism of injury is most 
likely to be due to a combination of 
hyperextension, rotation and direct trauma to 
the neck secondary to high speed motor 
vehicle accident. 

Although penetrating injury to the cervical 
vessels is usually readily suspected, blunt 
injuries may be elusive. Their relative 
infrequency (3% to 10% of cervical arterial 
injuries) and their common association with 
other injuries especially closed head trauma, 
render their diagnosis more difficult. 
Symptoms of extracranial vertebral dissections 
may occur at any time from minutes to days 
after trauma.  In some cases the delay may be 
extended up to six weeks which may confound 
the diagnosis. Delayed onset of detectable 
neurologic deficits characteristically leads to 
delay in diagnosis. (2)    

The Denver Screening criteria provide a 
screening protocol for BCVI based on injury 
mechanisms, injury patterns and symptoms 
(Table I). This protocol can identify trauma 
patients at risk for BCVI with a sensitivity of 
97% and a specificity of 42%. (5) 

 
  



 
 
 
 
 
314 | Karthikeyan et al - Post traumatic vertebro basilar dissection 

 

 
 
 
 
 
 

TABLE I 
 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
The most common aortic arch branching 

pattern includes three main branches namely 
brachiocephalic, left common carotid and left 
subclavian. Other branching patterns are 
formed due to the increased or decreased 
number of branches and their formation. In 
some cases, there are two aortic branches. The 
first branch includes the common trunk of 
right subclavian, right common carotid and 
the left common carotid arteries. The second 
branch is related to the left subclavian artery. 
This aortic arch branching pattern is called 
Bovine aortic arch. Some variations of the 
aortic arch branches are rare such as the 
presence of retroesophageal right subclavian 
artery as the last branch of the aortic arch. In a 
study in 2006 by Nayak et al on 62 human 
cadavers in India, 94% of the patients had a 
normal aortic branching pattern and 4.8% of 
them had a common origin for the carotid 

arteries. Doubled trunk branching and the 
right subclavian branching from aortic arch 
were observed in 1.6% of cases. In their study, 
the left vertebral artery branching from the 
aortic arch was reported in 1.6% of cases. (1) 
In our patient the left vertebral artery was seen 
to arise from the aortic arch. Though an 
incidental and rare finding on angiography, it 
possibly may have played a role in the 
etiopathogenesis of the injury due to abnormal 
long course of the vessel predisposing it 
traction injury and consequent dissection. 

Here we are reporting a rare case of BCVI 
which presented with isolated posterior fossa 
infarct which was associated with an 
anomalous origin of the left vertebral artery. 
BCVI is a rare but well-documented clinical 
entity with a wide spectrum of clinical features. 
In the current era of trauma epidemic with 
high velocity trauma the incidence of BCVI 

Denver Screening Criteria for BCVI 
• Signs/symptoms of BCVI 

o Arterial hemorrhage 
o Cervical bruit 
o Expanding cervical hematoma 

• Focal neurologic deficit 
o Neurologic examination incongruous with head CT scan findings 
o Stroke on secondary CT scan 

• Risk factors for BCVI 
o High-energy impact with: 
o LeForte II or III fracture 
o Cervical-spine fracture patterns:  
o subluxation, fractures extending Into the transverse foramen 
o fractures of C1-C3 
o Basilar skull fracture with carotid canal involvement 
o Petrous bone fracture 
o Diffuse axonal injury with GCS score <6 
o Near hanging with anoxic brain injury 



 
 
 
 
 

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and its complications are expected to be on the 
rise. High index of suspicion in appropriate 
clinical situations is the key to early diagnosis 
and prompt management to improve clinical 
outcome. 
 
Correspondence 
Dr. Devendra Purohit 
Professor Neurosurgery 
Department Of Neurosurgery 
SMS Medical College, Jaipur 
Mail: devendrapurohit@rediffmail.com 
Contact: +91 9829190335 
 
 
 

References 
1.Datta SGS. Posterior circulation stroke following mild 
head injury. Ind J Neurotrauma.2008;.5( 1):47-48. 
2.Fakhry SM, Jaques PF, Proctor HJ. Cervical vessel injury 
after blunt trauma. J Vasc Surg. 1988 Oct;8(4):501-8. 
3.Gunasekara H, Wijeratne M, Arambepola P. Post-
traumatic vertebral artery dissection. Ceylon Med J. 2010 
Dec;55(4):123-4. 
4.Jalali Kondori B, Asadi MH, Rahimian E, Tahsini MR. 
Anatomical Variations in Aortic Arch Branching Pattern. 
Arch 2016 Jan; 19(1):72-4. 
5.Kobayashi K, Imagama S, Okura T, Yoshihara H, Ito Z, 
Ando K et al. Fatal case of cervical blunt vascular injury 
with cervical vertebral fracture: a case report. Nagoya J 
Med Sci. 2015 Aug; 77(3):507-14 
6.Konar S, Pandey  P, Anita M. Superior cerebellar artery 
infract in a case of multiple territory infarct following 
severe brain injury: A rare occurrence. Ind J 
Neurotrauma.2012;9:150-3.