Introduction

Congenital anomalies of the axis often involve malformations of the odontoid process; in contrast, anomalies of the posterior arch are rare. The abnormalities may range from a simple cleft in the posterior arch to complete absence of the arch. Congenital anomalies of the cervical spine usually present with deformity, myelopathy, and occasionally as an incidental finding on radiographs. This study discusses a unique case with a C2 spino-laminar posterior arch defect that presented with progressive hemiparesis.

Case presentation

A 33-year-old right-handed male presented with progressive weakness of the right upper and lower limbs for the last 18 months along with associated numbness in the right arm, trunk, and leg. The patient developed gait instability, and loss of right-hand dexterity for the last 6 months, before he was seen at our hospital. There was no bowel or bladder dysfunction, trauma, or neck pain. The patient’s brain was evaluated using magnetic resonance imaging (MRI) with angiogram, which showed no abnormality. The cervical spine was normal with no noticeable tenderness, and all neck movements were pain free. Neurological examination revealed hypertonia on the right side with motor weakness (grade 3/5) in the right deltoid, biceps, and quadriceps muscle (C4 AIS D). There was wasting of the intrinsic hand muscles with grade 3/5 power in wrist flexors, extensors and the finger flexors on the right side. Tibialis anterior, extensor hallucis longus and the toe flexors had grade 5/5 power. The deep tendon reflexes of the knee and ankle were brisk with extensor plantar response on the right side. The right upper extremity showed a positive Hoffman’s sign. Even though the patient had numbness in the right upper and lower limbs, sensory examination for posterior column (fine touch, vibration, proprioception) and spinothalamic tract (crude touch, pain, temperature) did not reveal any abnormality and a sensory level could not be established. Similarly no abnormality could be found on the cranial nerves examination. The patient received a score of 12 on the modified Japanese Orthopedic Association scale (mJOA) scale, signifying moderate myelopathy [1]. Upon further investigation, plain radiographs revealed a spino-laminar anomaly of axis, with no atlanto-axial instability on dynamic films, and block vertebrae at C5–C6 (Fig. 1). Computed tomography (CT) also clearly demonstrated an anomalous spino-laminar process with bilateral laminar invagination into the spinal canal, the presence of congenital cervical canal stenosis with an anteroposterior diameter of 10 mm from C2 to C5, and associated C5–C6 block vertebrae (Fig. 2). MRI demonstrated ventrally displaced C2 lamina and spinous process impinging on the cord, with T2 hyper-intense signal changes extending from C2 to C3. It also showed degenerated discs with spondylotic changes at C3–C4 and C4–C5, which further accentuated the primary canal stenosis (Fig. 3).

Fig. 1
figure 1

Plain radiographs showing a spino-laminar anomaly on anteroposterior view (white arrow). Lateral Dynamic view radiographs showing displacement of anomalous spino-laminar process into the canal during extension (black arrow)

Fig. 2
figure 2

CT sagittal images (a-right sagittal, b-mid sagittal, c-left sagittal) showing congenital cervical stenosis and C5–C6 block vertebrae. Coronal and axial images (d, e) show a posterior defect of axis at lamino-facetal junction, sclerosed edges of lamina which invaginates into the canal

Fig. 3
figure 3

MRI para-sagittal (a, c) and mid-sagittal image (b) showing T2 hyper intensity changes extending from C2–C3 and cord compression due to invaginated laminar process (d) of axis evident on axial images. Also note the canal stenosis at C3–C4, C4–C5 levels (e, f)

The patient was subjected to excision of the anomalous spino-laminar process of C2 along with the removal of intervening fibrous tissue. In view of the primary canal stenosis and the C5–C6 block vertebrae with multilevel degenerated discs, C2–C6 laminectomy and instrumented fusion was performed with C2 pars screws and, lateral mass screws in the sub-axial cervical spine. Adequate decompression of the cord was achieved, and the intraoperative and post-operative course was uneventful. The patient was ambulatory with a cervical orthosis within 1 day after surgery (Fig. 4). At the1-year follow-up, the patient’s gait pattern had improved and clumsiness of the hand had resolved. Neurologically, the patient had improved to 5/5 in both the right upper and lower limb (AIS E) and the mJOA score had improved to 17. The patient was able to manage all the daily activities without any discomfort.

Fig. 4
figure 4

Post operative radiographs (a, b) of patient showing C2–C6 posterior Instrumentation

Discussion

Cervical myelopathy, due to affection of the sub-axial cervical spine, is common in clinical practice. Myelopathy due to affection of the upper cervical vertebrae (C1, C2) is rare, and myelopathy due to involvement of the axis or at the level of C2–C3 is even rarer [2]. Development of the vertebrae occurs in three stages: precartilage, cartilage, and ossification. Failure in the development of the vertebral chondrification center of the posterior arch of a particular sclerotome, or failure of appropriate ossification, may lead to posterior arch defects, such as an absent posterior arch, spondylolysis, absent pedicle syndrome, or defective lamina. The defect in the lamina at the lamino-facetal junction in this patient might have occurred because of problems with chondrification or ossification during embryogenesis. Van Gilder et al. classified defects of the axis into defects of atlantoaxial segmentation, dens dysplasia, OS odontoideum, hypoplasia, and aplasia, and segmentation failure of C2/3 [3]. However posterior arch anomalies were not included in this classification, indicating the rarity of this condition. Structural vertebral anomalies occur sporadically, in isolation or as an accompaniment to multi-organ developmental malformations [4]. However in the present case no such associations were noted.

Posterior arch anomalies of the axis resulting in cervical myelopathy have previously been reported [5,6,7,8,9,10]. In 1986, Koyama et al. [5] were the first to describe a case of a 54-year-old male with gait disturbance who had spina bifida of C2 and bilateral invaginated laminae of C2. The anomaly was successfully removed with a good post-surgical outcome. Moon et al. [10] reported a myelopathy patient with laminar cleft defect. Eight reports on myelopathy secondary to rare anomalies of the posterior arch of the axis were identified during our review of the literature [5,6,7,8,9,10]. However, all literature reported bilateral symptoms; a summary of the review is presented in Table 1.

Table 1 Summary of case reports with cervical myelopathy secondary to anomaly of posterior axis

Myelopathy manifesting as hemiparesis with multiple abnormalities, such as spino-laminar defect, congenital stenosis, and block vertebra, in a single patient is unique. In the present case, the compression occurred more on the right side, which might explain the unilateral symptoms and the clinical findings. The clinical manifestations in the patient with unilateral motor involvement without a sensory level and contralateral sensory findings fail to qualify to be a brown sequard syndrome which is a known manifestation of cervical myelopathy. Cerebrovascular accidents primarily present with hemiparetic symptoms; however, in rare circumstances when cerebral involvement is ruled out after investigations and clinically facial nerve is spared, it is worthwhile to determine if cervical spine pathology is present.

Conclusion

Although bilateral symptoms are the most common modes of presentation in congenital cervical spine anomalies, rare encounters with atypical presentations, such as hemiparesis, can also occur in a clinician’s lifetime. Simultaneous occurrence of an arch defect of the axis, block vertebra, and primary canal stenosis in the same patient makes this report very unique and useful to other clinicians.