17_SharmaAnand_LongSegment


 
 
 
 
 
344          Sharma et al          Long segment composite split cord malformation 

 

 

 

 

 

 

 

Long segment composite split cord malformation with 
double bony spur 

Anand Sharma, Achal Sharma, R.S. Mittal 

SMS Medical College, Jaipur, India 

 
Abstract: A composite type of SCM is very rare and only a few cases have been reported 
until today. The frequency of composite- type SCM is lower than 1% in the literature. In 
this report, we presented an unusual case of long segment composite type split cord 
malformation with double level bony spur with multiple associated bony anomalies. 
Key words: composite split cord malformation, double bony spur 

 
Introduction 

Split cord malformations (SCM) are rare, 
congenital spinal anomalies involving splitting 
of the cord. Here, a segment or whole of the 
spinal cord is divided into two parts by a rigid 
or a fibrous septum. These are usually 
diagnosed in children, up to 20% may be 
present in adulthood (6). Scoliosis and skin 
lesions are the main physical findings in 
patients with SCMs.  Composite type SCM is 
very rare and results from two separate foci of 
ectoendodermal adhesions and 
endomesenchymal tracts (7) leading to 
development of different SCM types with 
intervening normal cord in the same patient 
(4). Only a few cases of composite type SCM 
have been reported in literature. In this report, 
we presented an unusual case of long segment 
composite type split cord malformation with 
double level bony spur and multiple associated 
bony anomalies. 

Case Report 
A 4-year girl with hypertricosis over lower 

back since birth came to our institute. There is 
no history of delayed milestone, fever and 
bladder and bowel involvement. On physical 
examination, excessive hairs were present at 
lower lumber region without other cutaneous 
stigmata. Muscle tone and power was normal 
bilaterally in the lower limbs. Deep tendon 
reflexes and uroflometry were also normal. 
NCCT scan shows evidence of two large bony 
spurs located at D6 and L2 vertebral levels 
with multiple fused vertebrae at D7, D8, and 
D9 with spina bifida at L1. (Figures 1, 3A, 3B, 
and 3C). MR imaging revealed two bony 
septum at D6 and L2 with fibrous band at D7 
with long segment of split cord without 
intervening normal single cord extending from 
D5 vertebral body level to L3 and the conus 
medullaris at L4. (Figures 2, 3D, 3E) 



 
 
 
 
 

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Figure 1 – Coronal and sagittal CT whole spine 

 

 
Figure 2 – MRI Spine coronal sections showing long segment splitting of cord extending from D5 vertebral level 

to L4 vertebral level with double bony spurs 



 
 
 
 
 
346          Sharma et al          Long segment composite split cord malformation 

 

 

 

 

 

 

 

 
Figure 3 – CT scan A, B – axial images at D6 level showing bony spur. C – axial images showing another 

located bony spur at L2 level. D, E – MRI T2 axial images at D6 (A) and L2 (E) level 
 

Management 
Surgery was performed to prevent the 

progress of the neurologic damage resulting 
from tethering of the conus. The patient 
underwent laminectomies at D5–7, and L2, 
L3, L4 to remove the splitting lesions. 
Specifically, two spinal cords with their own 
dural sheaths were noted at D-5 and L2 and 
two hemicords in single dural sac were 
observed at D7. We resected bony spurs and 
fibrous band, reconstruction of dural sac done 
with the released of conusmedullaris by 
cutting the terminal filum via a L-4 
laminectomy. Postoperatively patient develop 
CSF leak from operative site, which were 
managed by reexploration and repair of dural 
defect with fibrin glue. 

Discussion 
SCMs are rare congenital malformations of 

the spinal cord and it’s covering that were first 
described by Ollivier (5) in 1837 and which he 
termed diastematomyelia. He used this term to 
describe an abnormality of the spinal cord in 
which the dura is separated by a bone spur or 
rigid fibrous bands to create 2 sleeves, each 
containing a portion of spinal cord divided 
sagittally into 2 parts. Bruce et al (1) used the 
term “diastematomyelia” to describe a spinal 

cord split by a midline bony spur, and reserved 
the term “diplomyelia” for a true doubling of 
the spinal cord without a spur. Pang (8) in 1992 
gave a new classification recommending the 
term “SCM” for all double spinal cord 
malformations. In type I the hemi cords are 
always invested with individual dural sacs and 
the medial walls of the sacs always ensheath a 
rigid (bony or cartilaginous) midline spur, 
whereas in type II the hemi- cords are always 
within a single dural sac and the midline 
septum is always composed of nonrigid 
fibrous or fibro-vascular tissues. A composite 
type of SCM is very rare and only a few cases 
have been reported. The frequency of 
composite- type SCM is lower than 1% in the 
literature (3). The most constituents of 
composite SCM are a type 1-type 2-type 1 
combination (9). Pang et al (6, 7) proposed a 
unified theory to explain the embryogenetic 
mechanisms of all variants of SCMs. 
According to the theory, the formation of an 
“accessory neurenteric canal” between the 
yolk sac and amnion through the midline 
embryonic disc was the main cause of the 
defects. This canal gets subsequently invested 
with the mesenchyme to form an 
endomesenchymal tract, which causes the 
splitting between the notochord and neural 



 
 
 
 
 

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plate. The accessory neurenteric canal is the 
key point of this malformation. This canal may 
be alone, or multiple canals may occur. The 
presence of multiple accessory neurenteric 
canals results in two or more septa that divide 
the spinal cord into two hemi-cords. 
According to this theory, one or more types of 
SCM may develop in patients at many 
different levels. Pang (6) reported on 2 cases 
of composite-type SCM among 39, and 
Erşahin et al. (2) reported on 4 cases of this 
type among 74 patients.  

Our case represent unusual variant of SCM 
comprising of composite split cord 
malformation with two level bony spur. 
Another important finding were long segment 
of split cord (D5 to L4), usually the two hemi 
cords reunite caudally to the split, but in our 
case the split did not reunite and represents the 
true duplication of the spinal cord, So it has 
three elements two bony spur at ends and one 
fibrous band with long segment of split cord 
malformation. These three elements are 
continuous, suggesting that entire lesion 
results from a single (but very large) 
endomesenchymal tract in which meninx 
primitive precursor cells have been included at 
both ends to cause type 1 lesion, but not in 
midline where medial septa remain fibrous (9). 

MR imaging is the diagnostic modality of 
choice for such lesions and imaging of the 
whole spine is essential to rule out other 
associated anomalies. CT scan is 
complimentary to MRI and is helpful in 
evaluating the nature of the spur and 
associated vertebral body anomalies. The 
location of the bony spur was thoracic and 
lumbar in our case. 

Surgery is the treatment of choice wherein 
the bony spur should be excised 
microsurgically. Low‐lying conus should 
also be addressed along with the excision of 
bony spur and dural sac reconstruction. 
Exploration and excision of the bony spur was 
followed by filum detethering in the same 

stage using standard microneurosurgical 
principles.  

Conclusion 
Composite SCMs are uncommon, complex 

conditions of spinal dysraphism. Etiology and 
pathogenesis is not clearly defined. The 
clinical radiological findings in our patient 
could not be explained by multiple accessory 
neurenteric canal theory. Physical and 
neurological signs of SCM in a patient should 
prompt the neurosurgeon to consider 
performing the screening MRI of whole spine 
with brain to rule out other composite type 
SCM and associated anomaly. 
 
Correspondence 
Dr. Anand Sharma 
Mch Neurosurgery 
Associate consultant, Neurosurgery 
Artemis health sciences, Gurgaon, 122003(India), 
Ph: +91-9873190047  
Email: dranandsharma100123@gmail.com 

References 
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5.Ollivier C: Traité des maladies de la moelle épinière. 
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348          Sharma et al          Long segment composite split cord malformation 

 

 

 

 

 

 

 

9.Schmidek & sweet operative Neurosurgical techniques. 
ELSEVIER SAUNDERS 2012,727-728.