A combined approach for stabilization and endoscopic/ endonasal odontoid and clivus resection for treatment of basilar invagination.

BACKGROUND: Basilar invagination (BI) is a complex condition characterized by prolapse of the odontoid into the brain stem/upper cervical cord. This lesion is often associated with Chiari malformations, and rheumatoid arthritis (RA). Treatment options for BI typically include cervical traction, an isolated anterior transoral odontoidectomy, anterior endonasal odontoidectomy, an isolated posterior fusion, or combined anterior/ posterior surgical approach. CASE DESCRIPTION: A 45-year-old female with a Chiari I malformation and RA underwent a combined posterior C0-C5 posterior decompression/fusion, followed by an anterior odontoidectomy (i.e. endoscopic/endonasal under neuronavigation). Postoperatively, the patient's symptoms and neurological signs resolved.
CONCLUSION: BI in was successfully managed with a combined posterior C0-C5 decompression/fusion followed by an anterior endoscopic/endonasal odontoidectomy performed under neuronavigation. Copyright:

INTRODUCTION

Basilar invagination (BI) resulting in cord compression is often associated with rheumatoid arthritis (RA), Chiari malformations (CM), Down syndrome, Klippel-Feil syndrome, or osteogenesis imperfecta.[6] The operative surgical options include a transoral versus endonasal odontoidectomy, and occipital/cervical posterior decompression and fusion.[4] Here, a 45-year-old female with BI, RA and a CM, successfully underwent a C0-C5 posterior decompression/ fusion, followed by an anterior endoscopic/endonasal odontoidectomy.

CASE PRESENTATION

A 45-year-old female presented with a Chiari I malformation (CM) and RA presented with 7-months of progressive suboccipital headaches [Table 1]. The brain MRI showed brainstem/ upper cervical cord compression attributed to a Chiari I malformation (i.e., with 4-mm of tonsillar descent), with BI/platybasia (i.e., defined based >3-mm extension cranial to Chamberlain’s line, extension cranial to McRae’s line, and with a nasion/clival angle >143 degrees) [Figures 1-3]. Cervical X-rays also confirmed odontoid instability with anterolisthesis of C2 over C3 and C3 over C4 on flexion which reduces on extension [Figure 4].

Table 1:

Patient characteristics.

Figure 1:

Preoperative radiograph demonstrating the Chamberlain line suggestive of basilar invagination.

Figure 3:

Preoperative lateral cervical spine radiograph demonstrating the angle of the nasion to the pituitary to the anterior margin of the foramen magnum. The angle of >143-degees is suggestive of platybasia.

Figure 4:

Preoperative lateral cervical spine X-rays in neutral, extension, and flexion.

Preoperative lateral cervical spine radiograph demonstrating the McRae line connecting the basion and opisthion.

Surgery

As 48 h of halo ring traction (i.e. secured to a halo vest) resulted in minimal odontoid reduction (i.e. movement of ~2-mm), the patient required posterior followed by anterior cervical surgery [Figure 5].

Figure 5:

Preoperative lateral CT scan of the cervical spine with 12 lbs of traction demonstrating ~2-mm of reduction when compared to Chamberlain line.

The C0-C5 decompression and fusion revealed underdeveloped lateral masses (i.e., analogous to pediatric lateral masses) and confirmed a congenital C2/3 lateral mass fusion. Despite this finding, 14-mm screws were effectively placed for lateral mass fixation. The second procedure, an endoscopic/endonasal odontoidectomy utilized neuronavigation. A small incision was made in the soft palate, and the posterior portion of the hard palate was removed using the zero-degree endoscope allowing access to remove the inferior odontoid [Figures 6a and b]. In addition, soft tissue from the anterior arch of C1 and the small intervening portion of the clivus between C1 and C2 were removed [Figures 6c and 7]. As stereotactic navigation appeared to be inaccurate, 3D fluoroscopy was additionally employed to complete the endoscopic/endonasal odontoidectomy [Figures 8a and b]. A second O-arm spin demonstrated a small residual portion of the left lateral base of odontoid, which was then removed [Figure 9]. The patient tolerated the procedure well. Further, the final post-operative CT of confirmed good decompression [Figure 10]. Her headaches resolved postoperative at 4-weeks and the neck stiffness was improving.

Figure 6:

Illustrations of key steps of endoscopic endonasal odontoidectomy. (a) Localization of the proper area of the posterior oropharynx. (b) Midline incision. (c) Localization and identification of the anterior tubercle of C1.

Figure 7:

Intraoperative imaging showing the initial approach to the odontoid. Imaging was obtained with an O-Arm.

Figure 8:

Illustrations of key steps of endoscopic endonasal odontoidectomy (a) Removal of the odontoid. (b) Identification of the thecal sac.

Figure 9:

Intraoperative imaging demonstrating a small remnant of odontoid before final resection. Imaging was obtained with an O-Arm. The navigated drill model is in blue.

Figure 10:

Postoperative lateral CT scan of the cervical spine demonstrating removal of the odontoid and reduction of compression on the cervical spinal cord.

DISCUSSION

There are a variety of surgical options for treating craniocervical junctional abnormalities. Indications for surgery include cranial nerve deficits, brainstem/spinal cord compression, craniocervical instability/ligamentous laxity, and autofusion anomalies. Symptomatic BI may be treated with cervical traction, an anterior odontoidectomy, a posterior C0-C2 fusion, or a combination of these approaches [Figure 11]. Here, our patient required a combination of C0-C5 posterior decompression/fusion with an anterior endoscopic/endonasal odontoidectomy [Table 2].[1,3,5,7] Notably, in one small series, four out of 11 patients (38%) undergoing anterior odontoidectomies required further decompression after utilizing an O-arm for an endoscope/endonasal approach without neuronavigation.[2] In our case, the resection of the posterior hard palate increased the operative corridor to complete the odontoid resection utilizing neuronavigation. Nevertheless, further verification of the extent of decompression should be confirmed with additional fluoroscopic imaging.

Figure 11:

Flow chart for the determination of the approach for basilar invagination.

Table 2:

Comparison of transoral versus endonasal approach for odontoidectomy.

CONCLUSION

Here, we presented a 45-year-old female with BI, a CM, and RA who was successfully treated with a posterior decompression/fusion from C0-C5 followed by an anterior endoscopic/endonasal odontoidectomy.