Romanian Neurosurgery  |  Volume XXXI  |  Number 1 |  2017  |  January - March 

 
Article 

 
Butterfly vertebra: a case report  

 

D. Adam, D. Iftimie, Gina Burduşa, Cristiana Moisescu 
ROMANIA 

 

 

 

DOI: 10.1515/romneu-2017-0012 
 



 
 
 
 
 
80 | Adam et al - Butterfly vertebra 

 

 
 
 
 
 
 

DOI: 10.1515/romneu-2017-0012   

Butterfly vertebra: a case report 

D. Adam1,2, D. Iftimie1, Gina Burduşa1, Cristiana Moisescu1 
1Department of Neurosurgery, “Saint Pantelimon” Clinical Emergency Hospital, Bucharest, ROMANIA 
2“Carol Davila” University of Medicine and Pharmacy, Bucharest, ROMANIA 

 
Abstract: Background and importance: Butterfly vertebra is an uncommon congenital 
spinal anomaly, which can be easily mistaken for vertebral fracture, infection or tumor. 
Clinical presentation: We report the case of a 20-year-old male patient with a 3-year 
history of intermittent mid-thoracic spinal pain. Local examination showed a mild 
thoracic kyphoscoliosis. Neurological examination was normal. Computer tomography 
revealed the presence of a T6 butterfly vertebra associated with morphological anomalies 
in adjacent vertebral bodies and T6-T9 Schmorl's nodes. MRI scan confirmed the 
diagnosis and additionally showed a mild spinal stenosis caused by apparent posterior 
epidural fat hypertrophy. The patient was treated with painkillers and physical therapy. 
Conclusion: Butterfly vertebra is a benign condition. Once diagnosed, additional 
diagnostic procedures are not necessary. Neurosurgeons must be aware of this congenital 
anomaly that should not be confused with a vertebral fracture. 
Key words: butterfly vertebra, congenital vertebral anomaly 

 
Background and importance 

Back pain is a common complaint, mainly 
caused by degenerative spinal disease. 
Thoracic spine pain is less frequently 
encountered in comparison with the lumbar 
or cervical regions. Congenital spinal anomaly 
at this level is a rare cause pain. 

Butterfly vertebra, which consists of a 
sagittal cleft in the vertebral body, is a 
congenital malformation that gives vertebrae 
the particular appearance of butterfly wings on 
anterior-posterior view of imaging studies. 

We report the case of a patient diagnosed 

with this rare spinal anomaly and perform a 
literature review concerning this condition.  

Clinical presentation 
A 20-year old male patient was admitted to 

our Neurosurgical Department, complaining 
of intermittent mid-thoracic spinal pain, 
particularly while maintaining a sitting 
position for prolonged periods of time. Onset 
of symptoms occurred 3 years before 
presentation, with progressive worsening and 
alleviation after bed rest and occasional over-
the-counter pain medication.  



 
 
 
 
 

Romanian Neurosurgery (2017) XXXI 1: 80 – 84 | 81 

 

 
 
 
 
 
 

Medical history was unremarkable. The 
patient mentioned a pulmonary condition at 
birth and a restrictive pulmonary syndrome 
diagnosed in his teens, but the he could not 
supply any medical documents for 
confirmation. Taking into consideration his 
particularly considerable height (208 cm), he 
had previously undergone basic 
endocrinological testing which was normal. 
He denied any history of trauma and no other 
probable cause of symptoms could be 
identified. 

Local examination revealed a mild thoracic 
kyphoscoliosis. No abnormalities were 
detected after a thorough neurological 
examination. Chest X-ray and routine blood 
tests were normal. 

CT scan of the thoracic spine revealed a 
congenital anomaly of the T6 vertebral body 
with a butterfly vertebra appearance (Figure 
1.A). The vertebra appeared incompletely 
developed with a hypoplastic aspect, only the 
posterior third of the vertebral body being 
visible, which consisted of two unjoined halves 
(Figure 1.B); the posterior vertebral arch was 
normal. The thoracic kyphosis was augmented 
at this level. Other encountered anomalies 
included morphological changes of adjacent 
vertebral bodies with a T5-T7 incomplete 
vertebral block tendency (Figure 1.C) and 
Schmorl nodes at T7-T9 levels. 

MRI of the thoracic spine confirmed the 
diagnosis of T6 butterfly vertebra (Figures 2.A, 
2.B, 2.C). Additionally, it showed a mild spinal 
stenosis at this level caused by the apparent 
hypertrophy of posterior epidural fat tissue 

with no intramedullary signal changes. No 
thoracic disc protrusions or herniations were 
observed (Figure 2D). 

The patient was recommended pain 
medication and physical therapy with good 
outcome at follow-up. 

 

 
 

 
 



 
 
 
 
 
82 | Adam et al - Butterfly vertebra 

 

 
 
 
 
 
 

 
Figure 1 - CT scan of thoracic spine revealing T6 

butterfly vertebra 
(A) coronal view showing the characteristic two-

winged aspect (white arrows) of butterfly vertebra. 
(B): axial slice at T6 level displaying the two unjoined 

hemivertebrae (white arrows). (C): sagittal view 
showing the augmented kyphosis at T6 level and T5-
T7 incomplete vertebral block aspect (white arrow) 

 

 
 

 

 
 

 
Figure 2 - T2-weighted MRI scan of thoracic spine 

with T6 butterfly vertebra 
Coronal (A), axial (B) and sagittal (C) T6-level 
centered images, confirming specific butterfly 

vertebra aspect. (D): Sagittal slice revealing mild 
spinal canal stenosis at T6 level caused by posterior 

epidural fat hypertrophy (arrow-head); multiple 
Schmorl nodes can be seen (the largest at the superior 

T7 endplate - arrow) 



 
 
 
 
 

Romanian Neurosurgery (2017) XXXI 1: 80 – 84 | 83 

 

 
 
 
 
 
 

Discussion 
Rokitansky first described butterfly 

vertebra in 1844, located at the 12th thoracic 
vertebra1. This is a congenital anomaly of the 
spine, which has received various names: 
sagittal cleft vertebra, anterior rachischisis, 
anterior spina bifida and anterior 
somatoschisis. Since its first description, very 
few cases of this malformation have been 
reported. 

Butterfly vertebra develops between the 3rd 
and 6th gestational week, when the two 
chondrification centers fail to fuse while giving 
rise to the vertebral body. These centers 
remain separated by notochordal tissue, which 
normally regresses from the level of the 
vertebral body and develops into the nucleus 
pulposus of the intervertebral disc. Thus, the 
vertebral body is comprised of two 
hemivertebrae and the notochordal derived 
tissue between them. This explains the 
anteroposterior X-ray appearance of two 
hemivertebrae separated by an empty space or 
cleft, more or less large. 

This malformation can be associated with 
other spinal anomalies, such as lumbosacral 
transitional vertebrae, spina bifida, 
diastematomyelia and several congenital 
syndromes: Allagille syndrome, Jarcho-Levin 
syndrome, Klippel-Feil syndrome or with 
gastrointestinal and genitourinary anomalies 
(2, 3). 

The etiology is supposed to be genetic 
(deletions of chromosome 20) (4) or a 
congenital deficiency of vascularization (5). 

Butterfly vertebra is usually asymptomatic. 
Patients with this malformation are diagnosed 

incidentally or may present atypical chronic 
pain. 

This condition can be diagnosed prenatally 
with 3D transabdominal ultrasound images6 
or after birth with plain X-ray or bone window 
computer tomography. On plain radiography, 
butterfly vertebra appears wedge-shaped in 
lateral view and can be easily misdiagnosed as 
a compression fracture. Anteroposterior spine 
X-ray reveals the vertebral body split in two 
halves. MRI shows the particular butterfly 
vertebra aspect on sagittal, axial and coronal 
images, other possibly associated congenital 
anomalies or intervertebral disc prolapses. 

The butterfly vertebra malformation has 
been described not only in clinical cases, but 
also in dry bone specimens from archeological 
excavations of necropolises (7, 8). 

The differential diagnosis of butterfly 
vertebra can be made with a compression 
fracture of the vertebral body, either 
osteoporotic or pathologic in nature. This is 
the reason why a DEXA test or laboratory 
investigations are sometimes necessary in 
order to rule out osteoporosis, neoplasia or 
infection. 

There have been reports of butterfly 
vertebra cases associated with disc protrusion 
or herniation of nucleus pulposus at the 
abnormal vertebral body level (5, 9–11). 

Patients with Alagille syndrome present 
atresia/hypoplasia of the intrahepatic biliary 
tree, chronic cholestasis, peculiar facies 
(hypertelorism, sunken eyes, straight nose, 
pointed chin, abnormal dental implantation), 
pulmonary stenosis and skeletal abnormalities 
(butterfly vertebra, phalangeal or ulnar 



 
 
 
 
 
84 | Adam et al - Butterfly vertebra 

 

 
 
 
 
 
 

shortening, pelvic abnormalities, 
osteoporosis) (2). 

Clinicopathological spectrum of Jarcho-
Levin syndrome is composed of a short neck 
and trunk, constricted thorax, rib and 
vertebral anomalies (butterfly vertebrae, 
hemivertebrae, fused or hypoplastic vertebrae) 
(3). 

When a butterfly vertebra is detected 
prenatally in association with other anomalies, 
it can usually lead to the termination of 
pregnancy6.In the case of postnatal diagnosis 
in children, only follow-up is necessary in 
order to exclude potentially associated rare 
syndromes. 

This condition is a benign spinal anomaly 
which must be differentiated from other 
pathological conditions.  In adult patients with 
butterfly vertebra, physical therapy is 
recommended to achieve unrestricted and 
pain-free movements. Once the diagnosis of 
butterfly vertebra has been established, 
patients must be informed that it represents a 
benign anomaly and further investigation 
procedures can be avoided. 

Conclusion 
Butterfly vertebra is a rare, benign 

condition. Once diagnosed, additional 
diagnostic procedures are not necessary. 
Neurosurgeons must be aware of this 
congenital anomaly, that should not be 
confused with a vertebral fracture. 

 
 
 
 

References 
1. Müller F, O’Rahilly R, Benson DR. The early origin of 
vertebral anomalies, as illustrated by a “butterfly 
vertebra”. J Anat. 1986;149:157-169. 
http://www.ncbi.nlm.nih.gov/pubmed/3693103. 
Accessed January 30, 2017. 
2. Berrocal T, Gamo E, Navalón J, et al. Syndrome of 
Alagille: radiological and sonographic findings. A review 
of 37 cases. Eur Radiol. 1997;7(1):115-118. 
http://www.ncbi.nlm.nih.gov/pubmed/9000411. 
Accessed January 31, 2017. 
3. Vázquez-López ME, López-Conde MI, Somoza-Rubio 
C, Pérez-Pacín R, Morales-Redondo R, González-Gay 
MA. Anomalies of vertebrae and ribs: Jarcho Levin 
syndrome. Description of a case and literature review. Jt 
Bone Spine. 2005;72(3):275-277. 
doi:10.1016/j.jbspin.2004.06.007. 
4. Silverman F, Kuhn J. Caffey’s Pediatric X-Ray 
Diagnosis: An Integrated Imaging Approach. 9th ed. St. 
Louis: C.V. Mosby Company; 1993. 
5. Sonel B, Yalçin P, Oztürk EA, Bökesoy I. Butterfly 
vertebra: a case report. Clin Imaging. 25(3):206-208. 
http://www.ncbi.nlm.nih.gov/pubmed/11679230. 
Accessed January 30, 2017. 
6. Youssef A, Zagonari S, Salsi G, et al. Prenatal diagnosis 
of isolated butterfly vertebra. Ultrasound Obstet Gynecol. 
2014;44(6):725-726. doi:10.1002/uog.13457. 
7. Anderson T. A medieval example of a sagittal cleft 
or ?butterfly? vertebra. Int J Osteoarchaeol. 
2003;13(6):352-357. doi:10.1002/oa.695. 
8. Keenleyside A. Sagittal Clefting of the Fifth Lumbar 
Vertebra of a Young Adult Female from Apollonia 
Pontica, Bulgaria. Int J Osteoarchaeol. 2015;25(2):234-
237. doi:10.1002/oa.2268. 
9. Delgado A, Mokri B, Miller GM. Butterfly vertebra. J 
Neuroimaging. 1996;6(1):56-58. 
http://www.ncbi.nlm.nih.gov/pubmed/8555665. 
Accessed January 30, 2017. 
10. Cho H-L, Kim J-S, Paeng SS, Lee S-H. Butterfly 
vertebra with lumbar intervertebral disc herniation. J 
Neurosurg Spine. 2011;15(5):567-570. 
doi:10.3171/2011.6.SPINE1178. 
11. Ozaras N, Gumussu K, Demir SE, Rezvani A. 
Differential diagnosis of multiple vertebral compression: 
butterfly vertebrae. J Phys Ther Sci. 2015;27(11):3601-
3603. doi:10.1589/jpts.27.3601.