15_SatyartheeGuru_Surgical


 
 
 
 
 

Romanian Neurosurgery (2015) XXIX 3: 329 - 335         329 

 

 

 

 

 

 

 

Surgical management of combined fracture of atlas 
associated with fracture of axis vertebrae (CAAF): Case    
Series 

Guru Dutta Satyarthee, Gaurang Vaghani, A.K. Mahapatra 

Department of Neurosurgery 
JPN Apex trauma centre, AIIMS, New Delhi, India 

 
Abstract: Combined fracture involving  atlas together associated with axis (CAAF) 
accounts for approximately   3 % of traumatic cervical spine injury, CAAF are rarely 
reported, so modalities of   management  and outcome are not well understood, due to 
paucity of literature and only few reports reported  in the form of isolated case report. 
CAFF   management possess challenge as it is associated with high incidence non-union 
with previously conservative method.  However, missed diagnosis and subsequent delay 
may be associated with catastrophic worsening in neurological deficit. So early diagnosis 
and management remains the key for successful neurological outcome. Such fractures 
are rare.  Authors report five such cases of CAFF, all required surgical management with 
good outcome with no mortality.  Current study, all cases were   males (n=5), commonest 
mode of injury was fall (n=3), time interval since injury was within 24 hours in (n=4), 
however rest one presented after a gap of eight months. Commonest clinical feature was 
neck pain (n=3), neurological deficit (n=2), neck tenderness and swelling  tenderness 
(n=3) Neuroimaging including X-ray, CT scan and MRI were carried out for all cases 
revealed fracture of arches of atlas (n=5), one case had multiple site fracture of both  
arches, odontoid fracture (n=2), lateral  mass of atlas fracture in  1 cases. Astonishingly 
two cases had disruption of transverse ligament.   Surgical procedures performed 
considering economic consideration included occipito-cervcial fusion (n=3), 
transarticular C1-C2 fusion and anterior odontoid screw fixation in one cases each. 
Management options in CAFF and review of literature discussed in present study.  
Key words: atlas fracture, axis fracture, atlantoaxial instability. 

 
Introduction 

Traumatic cervical spine injury is one of 
common injury accounting approximately 4.3 
% of all patients with trauma. The incidence of 
combined fractures, as a subset of C-1 or C-2 
fractures, is 43% and 16%, respectively (1, 2). 
Atlantoaxial fractures are commoner in elderly 
but uncommon in young adults, however,   
most commonly caused by motor vehicle 
accidents (1). CAFF   are often associated with 
higher incidence of neurological deficits or 

have higher chances of neurological 
deterioration when compared   to   isolated 
atlas or axis vertebra injuries. Management is 
controversial. External immobilization or 
surgical intervention or initial trails of 
conservative therapy followed by delayed 
surgery have been   advocated for management   
(1, 2, and 3). Consensus regarding definitive 
management of CAFF is still lacking. In this 
view author retrospectively analyzed five 



 
 
 
 
 
330          Satyarthee et al         Combined atlas-axis fracture management 

 

 

 

 

 

 

 

cases of CAFF treated at Level I trauma centre 
in India and literature reviewed.  

Case Illustration 
Case 1: A 20-year old male presented with 

complaint of    severe non-radiating pain and 
swelling in neck developed following a fall 
while doing exercise in the gym. Detailed 
neurological evaluation on admission revealed 
swelling and tenderness in neck with restricted 
neck movements, however no associated neck 
deformity and rest of the neurological 
examination was unremarkable.    X- Ray and 
CT scan of craniovertebral junction revealed 
multiple fracture of atlas ring, being   one     
over anterior arch and two   fractures   on 
posterior arch   causing expansion of atlas ring 
with associate type II odontoid process 
fracture causing reducible atlantoaxial 
dislocation (Figures 1a, 1b). MRI of 
craniovertebral junction revealed disruption of 
transverse ligaments with displaced fractured 
odontoid process causing thecal sac 
compression; however   no associated cord 
contusions or edema was detected 

 He was planned for surgical management 
and occipito-cervical fusion carried out with 
rod and polyaxial screws to occipital bones to 
C 3, C 4 lateral mass screws (Figure 1 c). He 
was doing well at last follow-up 4 months 
following surgery. Neck pain subsided 
completely. 

 

 
Figure 1 - CT scan imaging of craniovertebral 

junction, (a) axial section  and (b) sagittal image  
showing multiple fractures of  anterior and posterior 

arch of atlas vertebra  associated with  type II 
odontoid fracture with displaced odontoid  tip and (c) 
post- operative  scan  with in situ  Occipito-cervical   

fusion (co-c 4 ) 
 

Case 2:   A 50 –year- male had history of 
fall ten feet height, presented with complaint 
of severe neck pain.   Neurological 
examination on admission revealed only 
restriction of neck movements and rest of 
examination were essentially within normal 
limits.   CT scan of craniovertebral junction 
demonstrated   type 2 odontoid    fracture 
associate with right lateral mass of axis with 
anterior arch of atlas fracture (Figure 2 a, b). 
MRI revealed intact transverse ligament 
without cord signal alteration. He underwent 
anterior cervical odontoid screw placement 
(Figure 2c). Postoperative period was 
uneventful with complete relief   at follow up 
of 3 months following surgery.  

 

 
Figure 2 - Axial (a) and sagittal (b) section of CT 

scan of Craniovertebral CV junction showing  
fracture of anterior arch C1 vertebra and associated  
Type II odontoid fracture    (c) Post -operative CT 

scan showing  precisely placed odontoid screw 
through anterior approach. 

 
Case 3- A 30 –year- male presented with 

history of progressive spastic quadriparesis 
and associated with respiratory distress 
following motor vehicle accident,   he was 
incubated at peripheral hospital and after 
resuscitation, was referred to our institute for 
further management. Examination on 
admission, he was quadriplegic with partial 
sensory impairment (ASIA grade B).  X-ray 
and CT scan image revealed fracture of 
anterior arch on right side of C1 vertebra and   
fracture of   vertebral body of C2, and C3; and 
associated fracture of lamina of C2, C3 and C4 
causing significant cord compression (Figure 
3 a, b). Patient undergone occipito-cervical rod 
and screw fusion, occiput-C3-4, on right side 
occipito-C2-3 fusion done on left                                                                               



 
 
 
 
 

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side (Figure 3 c). He needed tracheotomy in 
post-operative period for pulmonary toileting 
as he was on prolonged ventilator support. In 
postoperative period, he improved to ASIA 
grade C at the time of discharge at one month 
after definitive surgery.  

Case 4: A 12- year old boy after sustaining 
injury following fall from tree of 12 feet about 
eight months back, presented   with 
progressive spastic quadriparesis in outpatient 
service department.  Examination on 
admission revealed neurological status was 
ASIA grade D, with hypertonia and 
exaggerated deep tendon reflexes and planter 
reflexes extensor bilaterally.  On X-ray and CT 
scan evaluation of patient suggestive of right 
C1 posterior arch fracture with reducible 
atlanto-axial dislocation with transverse 
ligament injury (Figure 4 a,b). Patient 
underwent Posterior C1-C2 trans-articular 
screw fixation (Figure 4 c). Post-operative 
period was uneventful and good fusion at 
follow up of 8 month following surgery. 

 

 
Figure 3 - Axial section of CT scan of 

craniovertebral CV junction, (a), (b) depicting right 
side fracture of anterior C1 arch on and associated  
C2 body fracture with   (c) Post operative CT scan   

Occipito-cervical fusion 
 

 
Figure 4 -  Axial (a) and Sagittal (b) section of CT 

scan of CV junction shows posterior arch fracture C1 
on right side with consequent atlanto-axial 

dislocation and (c) Post operative X-ray showing C1-
C2 transarticular in position. 

 

Case 5: A 19- year- male following motor 
vehicle accident and presented with pain ain in 
neck following trauma. Detailed neurological 
examination revealed no deficits except 
tenderness in neck.   CT scan of 
Craniovertebral junction demonstrated 
fracture of posterior arch of atlas and body of 
C2 vertebrae with fracture of spinous process 
of C 7. 

MRI examination revealed transverse 
ligaments injury. Patient underwent occipito-
cervical rod and screw fusion (Occipito – C3-
4-5). Post-operative period was uneventful and 
on follow up at 18 months, he had no deficits 
or pain.   

Discussion  
Sir Geoffrey Jefferson described   burst 

fracture of atlas involving fracture of anterior 
and posterior arch on both sides in 1920 (1). 
He defined all types of C-1 fractures, and 
elaborated 19 cases of CAFF. Its variants   may 
include unilateral arch fractures, posterior ring 
fractures, and lateral mass fractures of atlas. It 
is most common type of atlas fracture; it is 
associated with high morbidity and mortality. 
Atlas fracture accounts for about 25% of 
atlantoaxial and complex up to 10 % of upper 
cervical spine fracture. Injuries involving the 
occipitocervical junction is often unstable and 
rapid diagnosis facilitates early stabilization 
reduce the risk of subsequent iatrogenic 
neurological deterioration (5).  High-energy 
transmission during fall causes   fractures of 
atlas, and commonly associated with 
contiguous cranio-cervical injuries in more 
than one third patients (6). It is commonly 
caused by road traffic accident or falling on to 
head especially in toddler. 

Basic pathological mechanism is  axial 
load producing the C-1 fracture is often 
coupled with a flexion force that leads fracture 
of axis, and odontoid process fracture 
constitutes one of the  commonest association 
(1, 2, 3)  The incidence is higher in the elderly 
due to   brittleness of the bones caused by  



 
 
 
 
 
332          Satyarthee et al         Combined atlas-axis fracture management 

 

 

 

 

 

 

 

osteoporosis  (7). In the current study majority 
were young and fall was commonest cause.  
CAFF is associated to higher incidence of 
neurological deficits in comparison to isolated 
atlas or axis fractures (1). 

Treatment of CAFF is difficult, 
challenging and no definite guidelines 
provides difficulty in selection of ideal 
procedure, which led to multiple surgical 
approaches to treat CAFF and usually differs 
from isolated atlas or axis fractures. 
Traditional conservative approaches which 
involved nonsurgical halo traction therapy (5). 
Lipson (7) advocated initial immobilization of 
the cervical spine with a halo vest, which allow 
spontaneous healing of the C-1 fracture, could 
be followed by fusion of C1–2, if continued 
instability became evident. But Dickman et al  
(1) advocated early surgery based on the type 
of type 2 odontoid fracture as there is high 
chances of non-union, especially in elderly and 
if displacement of fracture segment more than 
6 mm, displaced, and  early surgery is 
recommended for specially unstable fracture. 
Guiot and Fesseler (8) after analysis, observed   
about 50% of their case failed to show bony 
fusion, who were managed with   halo 
immobilisation, so  authors further noted 
nonsurgical management of CAFF   would 
appear to have a high failure rate and so 
advocated “early” surgical intervention. Age 
of patient, type of fracture of atlas ring, type of 
axis fracture and intactness of transverse 
ligament may help in selecting appropriate 
surgical approach and treatment for CAFF 
injuries; however treatment protocol should be 
individualised according   type of injury, 
availability of   intraoperative imaging facility, 
economic status of patients and associated co-
morbid illness, suitability for general 
anaesthesia. However major determinant is 
type of axis injury, rupture of transverse 
ligament of axis, associated atlanto-axial 
dislocation, reducibility. 

The selection of type of fusion depends on 
the basis of nature of C-2 fracture.  Treatment 

option further guided by    degree of offset of 
C1 arch, injury to transverse ligament, 
associated fracture of C2 or odontoid fracture.  
CAFF injury   may include hangman or type II 
odontoid fracture. (8, 9, 10, 11) 

Type II odontoid fracture with greater than 
6 mm displacement is itself a surgical 
indication.  Surgical option may include 
occipito-cervical fusion, C1 lateral mass and 
C2 pedicle screw, C1-C2 transarticular screws 
and anterior odontoid screw fixation 

Anterior approach for odontoid screw 
fixation used with posterior sloping or 
horizontal fracture of odontoid. Halo 
immobilisation following anterior odontoid 
screw fixation in complex C1–2 fractures 
involving a Jefferson’s fracture with minimal 
displacement or bilateral anterior arch fracture 
and with intact the transverse ligament would 
be appropriate treatment, as in our case -2   
limitation of anterior odontoid screw  
placement include forward sloping odontoid 
fracture making more suitable for   posterior 
approach is preferred. Posterior transarticular 
screw fixation as in our case – 4, although a 
posterior approach may be preferable because 
the difficulty of per forming fusion via an 
anterior approach,   

Occipitocervical fusion has been advocated 
by several authors as rescue solution. The 
occipital bone is to be included in the fusion 
construct, if associated bilateral or multiple 
ring fractures of the atlas arches. If C1–2 trans-
articular screw fixation is not possible because 
of the position of the vertebral arteries, then 
occipitocervical fixation is the remaining 
surgical alternative. However, anterior 
subluxation of C1 on C 2 may indicate rupture 
of transverse ligament and again highlighting 
fact about transverse ligaments integrity   is 
also important factor in selection of surgical 
approaches in management of CAFF groups of 
patients.  

An atlantoaxial dislocation or disruption of 
unstable C1-C2, with disrupted transverse 
ligament poses grave risk of injury to 



 
 
 
 
 

Romanian Neurosurgery (2015) XXIX 3: 329 - 335         333 

 

 

 

 

 

 

 

brainstem and upper cervical cord. If 
associated odontoid fracture, odontoid 
fragment may migrate up into foramen 
magnum.  However, in case of disrupted 
transverse atlantal ligaments and in some cases 
of Jefferson fracture of the atlas with widely 
splayed lateral masses, trans-articular screw 
fixation may be desirable. This procedure can 
be performed either via an anterior or posterior 
approach. These complex cases and our case 
no. 1, 4, 5, Occipito cervical fusion extending 
to C2 or C3-4 may be necessary, as these 
construct stabilises ring.  

Conclusion   
Combined fracture of atlas associated with 

fracture of axis vertebrae (CAAF)   poses 
challenge for neurosurgeon. Age of patient, 
type of fracture of C 1 arch, intactness of 
transverse ligament and type of C2 fracture 

may help in selecting appropriate surgical 
approach. Early surgery is safe and effective 
especially, if transverse ligament is injured, 
displaced odontoid fracture, with unstable 
atalanto-axial dislocation carries high chances 
of non union. High index of suspicious, and 
prompt and emergent    treatment can halt the 
development of catastrophic neurological 
deterioration. However ideal selection of 
fusion method demands detailed evaluation of 
X-ray, CT scan. MRI imaging, age of patients, 
economic status of patient, expertise of 
surgical team and large number of surgical 
procedures in neurosurgical armamentarium   
further produces confusion as long term results 
are still awaited. However, in future study 
involving large number of Cohorts will 
definitely provide eye opening solution.   
However, treatment for these injuries should 
be individualised according their type of 
injury. 

TABLE 1 
Summary of Our patients with combined fracture of atlas associated with fracture of axis 

vertebrae (CAAF) 
Sr 
no. 

Age 
(years/ 
sex) 

Mode of 
injury 

Imaging of atlas 
vertebra with fracture 
of Arch 

Imaging of axis and 
transverse ligament 

Associated other 
vertebral injury  

Surgical approach  Remarks 

1) 20   
Fall  

Multiple site of 
anterior and posterior   
 

Type II odontoid 
fracture + 
   Transverse  
ligaments injury 

- Occipito-cervical 
 fusion  
(O-C3-4) 

 
Pain reduces 
completely 

2) 50 Fall from 
height 

Arch of atlas fracture type II odontoid 
fracture + 
lateral mass C2 

- Odontoid  
Screw. 

Good fusion at 9 
months 

3) 30 Motor 
vehicle 
accident 

anterior arch on right 
side 

C2   body fracture C3 body fracture 
 lamina of C2,C3 
and C4 fracture  

Occipito- cervical  
fixation  
(Rt- O- C3-4, Lt-O-C2-3) 

Deficits improved 
post operatively. 
With good fusion 
at 20 months F/U 

4) 12 Fall from 
height  

Right side    posterior 
arch   
 

reducible atlanto-
axial dislocation + 
transverse ligament 
injury 

 Posterior C1-C2  
Trans-articular screw  
fixation  

Good bony fusion 
at 8 months. 

5) 19 Motor 
vehicle 
accident 

posterior arch 
  

Fracture of    C2 
vertebrae body 
+ transverse 
ligaments injury   

spinous process of 
C 7  fracture  

occipito-cervical rod and  
screw fusion 
 (Occiput – C3-4-5) 

No complaint at 
18 month F/U. 

 
Correspondence 
Dr. Guru Dutta Satyarthee   
Associate Professor, 
Department of Neurosurgery,   

 
 
#310, Jai Praksah Apex Trauam centre, and  
AIIMS, New Delhi, India 



 
 
 
 
 
334          Satyarthee et al         Combined atlas-axis fracture management 

 

 

 

 

 

 

 

E-mail:   duttaguru2002@yahoo.com 
 
 

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