Journal of Orthopaedics and Allied Sciences

: 2016  |  Volume : 4  |  Issue : 2  |  Page : 101--102

Calcifying posterior longitudinal ligamentum and posterior osteophytes in case of anterior cervical corpectomy with titanium cage reconstruction

Amit Agrawal1, Thalluri Gopalkrishnaiah2,  
1 Department of Neurosurgery, Narayana Medical College Hospital, Nellore, Andhra Pradesh, India
2 Department of Orthopedics, Narayana Dental College Hospital, Nellore, Andhra Pradesh, India

Correspondence Address:
Amit Agrawal
Department of Neurosurgery, Narayana Medical College Hospital, Chinthareddypalem, Nellore - 524 003, Andhra Pradesh

How to cite this article:
Agrawal A, Gopalkrishnaiah T. Calcifying posterior longitudinal ligamentum and posterior osteophytes in case of anterior cervical corpectomy with titanium cage reconstruction.J Orthop Allied Sci 2016;4:101-102

How to cite this URL:
Agrawal A, Gopalkrishnaiah T. Calcifying posterior longitudinal ligamentum and posterior osteophytes in case of anterior cervical corpectomy with titanium cage reconstruction. J Orthop Allied Sci [serial online] 2016 [cited 2021 Oct 16 ];4:101-102
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Full Text

Dear Sir,

Anterior cervical corpectomy with titanium cage reconstruction is one of the effective methods of cervical spine reconstruction. [1],[2],[3] A 58-year-old male patient who was operated 2 years back for cervical disc disease was apparently doing well. Now, he presented with burning sensation and persistence of paresthesias. There was no history of weakness. There was no history of bowel and bladder disturbances. On examination, the motor and sensory systems were normal. Deep tendon reflexes were normal. Planters were bilateral flexors. His cervical spine X-ray showed titanium cage in-situ with good fusion [Figure 1]aHowever, there was ossification of the posterior longitudinal ligament with osteophytes. Magnetic resonance imaging of the cervical spine confirmed the ossified longitudinal ligament with mild thecal compression [Figure 1]b. In the absence of features of myelopathy, the patient was planned for conservative management and regular follow-up.{Figure 1}

The major advantages of titanium cages are immediate stability, restoration of foraminal height and alignment, restoration of anatomic cervical lordosis at the intervertebral segment, and less operative time. [4],[5],[6] At present, the patient had good fusion as per the criteria described on plain radiograph (segmental movement in the lateral flexion-extension view should stand within 2°, formation of trabecular bone between allograft or cage and adjacent vertebral body and disappearance of the adjacent vertebral body endplate, effacement of bony spur, and remodeling of graft bone). [6],[7],[8],[9],[10] Although titanium cage has good outcome, there are few limitations: (1) their high modulus of elasticity contributes to subsidence and kyphotic deformity of the involved segment, [6],[10],[11],[12],[13],[14],[15] (2) cage malplacement, [3] and (3) cage extrusion. [6] Although clinical outcomes of the stand-alone cage have been shown to be encouraging, cage subsidence is a major concern as its complications [Figure 2]. [15] If a patient with titanium cage in situ and radiological evidence of good fusion requires a revision surgery, it can be extremely difficult. [16] The cage extraction from a corpectomy site also requires a significant amount of drilling of above and below vertebral bodies. [16] In contrary to the problem of cage subsidence, the present patient had ossified posterior longitudinal ligament and posterior osteophytes (although may not be responsible for his symptomatology). As he did not have deficits related to the involved segments, he was counseled accordingly and managed conservatively.{Figure 2}

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