Abstract
BackgroundIn the setting of congenital C1 occipitalization and C2–3 fusion, significant strain is placed on the atlantoaxial joint. Vertebral fusion both above and below the atlantoaxial joint (i.e., a “sandwich”) creates substantial instability. We retrospectively report on a case series of “sandwich fusion” atlantoaxial dislocation (AAD), describing the associated clinical characteristics and detailing surgical treatment. To the best of our knowledge, the present study is the largest investigation to date of this congenital subgroup of AAD.MethodsSeventy consecutive patients with sandwich fusion AAD, from one senior surgeon, were retrospectively reviewed. The clinical features and the surgical treatment results were assessed using descriptive statistics. No funding sources or potential conflict of interest-associated biases exist.ResultsThe mean patient age was 42.2 years (range: 5–77 years); 36 patients were male, and 34 were female. Fifty-eight patients (82.9%) had myelopathy, with Japanese Orthopaedic Association (JOA) scores ranging 4–16 (mean: 12.9). Cranial neuropathy was involved in 10 cases (14.3%). The most common presentation age group was 31 to 40 years (24 cases, 34.3%). Radiological findings revealed brainstem and/or cervical-medullar compression (58 cases, 82.9%), syringomyelia (16 cases, 22.9%), Chiari malformation (12 cases, 17.1%), cervical spinal stenosis (10 cases, 14.3%), high scapula deformity (1 case, 1.4%), os odontoideum (1 case, 1.4%), and dysplasia of the atlas (1 case, 1.4%). Computed tomography angiography was performed in 27 cases, and vertebral artery (VA) anomalies were identified in 14 cases (51.9%). All 70 patients underwent surgical treatment, without spinal cord or VA injury. Four patients (5.7%) suffered complications, including 1 wound infection, 1 screw loosening, and 2 cases of bulbar paralysis. In the 58 patients with myelopathy, the mean JOA score increased from 12.9 to 14.5. The average follow-up time was 50.5 months (range: 24–120 months). All 70 cases achieved solid atlantoaxial fusion at the final follow-up.ConclusionsSandwich fusion AAD, a unique subgroup of AAD, has distinctive clinical features and associated malformations such as cervical-medullar compression, syringomyelia, and VA anomalies. Surgical treatment of AAD was associated with myelopathy improvement and minimal complication occurrence.
Highlights
In the setting of congenital C1 occipitalization and C2–3 fusion, significant strain is placed on the atlantoaxial joint
This condition results in an anterior atlanto-dental interval (ADI) and resultant atlantoaxial dislocation (AAD), with superior odontoid migration and hypermobility of the craniovertebral junction, and resultant symptomatic stenosis [2]
Clinical presentation Seventy patients were diagnosed as having AAD with concomitant C1 occipitalization and C2–3 congenital fusion
Summary
In the setting of congenital C1 occipitalization and C2–3 fusion, significant strain is placed on the atlantoaxial joint. With regards to its etiology, AAD can be divided into three main categories: traumatic, idiopathic, and deformity-related Among those individuals with congenital or developmental deformities, the concomitance of C1 occipitalization and C2–3 fusion constitutes a subgroup with a high risk of AAD development. We refer to the condition of C1 occipitalization, C2–3 congenital fusion, and subsequent AAD as AAD with “sandwich fusion” (Fig. 1). This condition results in an anterior atlanto-dental interval (ADI) and resultant AAD, with superior odontoid migration and hypermobility of the craniovertebral junction, and resultant symptomatic stenosis [2]. A previous study reported that 57% of isolated congenital C1 occipitalization cases went on to develop subsequent AAD [4]
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