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Original Article
2021
:12;
135
doi:
10.25259/SNI_43_2021
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Considerations in revising occipitocervical fixation for dysphagia

Department of Neurosurgery, Salford Royal Hospital, Stott Lane, Salford, Manchester, M6 8HD, England, United Kingdom.
Corresponding author: Mazhar Iqbal, Department of Neurosurgery, Salford Royal Hospital, Stott Lane, Salford, Manchester, M6 8HD, England, United Kingdom. mazhar.iqbal1@nhs.net
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How to cite this article: Iqbal M, George KJ. Considerations in revising occipitocervical fixation for dysphagia. Surg Neurol Int 2021;12:135.

Abstract

Background:

Dysphagia after occipitocervical fixation (OCF) is a complex phenomenon and revision surgery in this context involves difficult decision-making. The pathogenesis is explored and surgical strategies discussed. A surgical strategy that has not been described before in the management of this condition, is discussed with two illustrative cases.

Methods:

Two cases are presented where dysphagia occurred after OCF for C1/C2 instability. The preoperative imaging was not available to determine whether the optimal craniocervical angle had been achieved. Both had revision surgery with removal of the cranial fixation and fusion to the atlas instead. One of the cases had the revision surgery more than 10 years after the original OCF.

Results:

The dysphagia recovered after the revision surgery in both cases. The patients gained weight and reported more satisfaction with their posture and head movements compared to before the revision surgery. There was no head ptosis and instead, patients reported better forward gaze and head position.

Conclusion:

In cases of C1/C2 instability, it is preferable to perform C1/C2 fusion rather than OCF. If performing an OCF, care must be taken to fix the head at the same O-C2 angle as preoperative. When an OCF done for C1 C2 instability ends up causing dysphagia, it is feasible and effective to shorten the rostral construct by removing the cranial fixation and fusing to C1 instead.

Keywords

Atlantoaxial fixation
Dysphagia
Occipitocervical fixation

INTRODUCTION

Occipitocervical fixation (OCF) is a commonly performed operation for rheumatoid arthritis, tumor, and trauma involving the upper cervical spine and craniocervical junction. Some surgeons prefer to perform the rostral fixation to the occiput rather than to the atlas even when the instability is between C1 and C2.[1]

Dysphagia after OCF is an uncommon but increasingly recognized complication. It is thought to arise from fixing the neck in flexed or chin tuck position which results in a decreased oropharyngeal space and the inability of the spine to move during the swallowing phase.

To fix the neck in the optimum position while performing OCF is not easy and there are reports of swallowing problems even when the OCF is done in an ideal position.[16]

It is unclear as to what the ideal strategy is when a patient develops swallowing problems after OCF. Some surgeons go for revision surgery with aim of recontouring the rod to fix the head in a more extended position. Unfortunately, even this does not effectively address the swallowing problems as one of our illustrative cases show. If the preoperative imaging is not available, then it is difficult to gauge the ideal position that the head must be fixed in.

Removing the cranial fixation part is an option to address this but has not been previously described. There is a theoretical danger that the posterior craniocervical extensor muscles would have weakened and can no longer support the head in an extended position.

This can result in head ptosis or dropped head.

We present two cases whereby revision surgery was done by removing the cranial fixation component and fusing instead to the atlas, which led to a successful resolution of the swallowing problem. One of the cases had the revision surgery more than 10 years after the original surgery.

CASE PRESENTATIONS

Case 1

A 48-year-old lady was referred from another center. She had initially presented there with juvenile arthritis leading to C1/ C2 subluxation and basilar invagination. She had surgery in the form of an OCF with fixation from the occiput to C4 [Figure 1]. The patient developed severe dysphagia immediately after surgery. She also had severe neck pain and was unhappy about the severe restriction of head movements after surgery.

Figure 1:: Case 1 preoperative image; lateral cervical spine X-ray showing the occipitocervical fixation.

She presented to us 2 years later. She had difficulty in swallowing both solids and liquids but did not have any cranial nerve deficit. A barium swallow study did not find any obstructive pathology and showed moderate gastroesophageal reflux. Neurophysiology studies did not reveal any hypoglossal nerve injury. Initial strategy was to try and recontour the rods into a more favorable occipitocervical angle. However, the preoperative imaging was unavailable for us to calculate the optimal occipitocervical angle. Although there was concern about a postoperative head ptosis, after discussion with the patient, we decided to remove the cranial fixation and convert the construct to a C1/C2 fusion. An anomalous vertebral artery prevented a traditional C1 lateral mass fixation but allowed a transarticular screw trajectory.

We removed the OCF rod and inserted a C1/C2 transarticular screw with onlay of bone graft to provide fusion mass [Figure 2].

Figure 2:: Case 1 postoperative image; lateral cervical spine X-ray showing removal of the cranial fixation rod and revision to bilateral transarticular C1 C2 screw.

She was mobilized as able postoperatively without any collar. The patient’s swallowing problems improved immediately after the revision surgery. She put on 6 kilos of weight in 6 months after the surgery. She was also much happier about her head position and forward gaze. She revealed that she could now wear heels, enjoy a glass of wine, as well as look at her grandchild’s face when holding him, none of which she had been able to do before. She was discharged after 1 year of follow-up.

Case 2

A 71-year-old lady with rheumatoid arthritis and ischemic heart disease presented with neck pain, myelopathy, radiculopathy, and drooping of her head. She had OCF to C4 in 2006 for atlantoaxial instability. She developed severe dysphagia postoperative and needed nasogastric tube feeding. Three months later, she had revision surgery with realignment of the occipitocervical angle and fixation of the head in a more extended position than before. The dysphagia improved to the point that she was able to tolerate oral feed but she still had swallowing problems.

Twelve years later, she presented to us with difficulty in swallowing solids and liquids and drooping of the head. She also had brachalgia and paresthesia down both upper limbs with early myelopathic features on examination but no cranial nerve deficits. She weighed only 42 kilos. Imaging revealed that she had developed subluxation below the level of the OC fix at C4/5 with cord compression with foraminal stenosis at C5/6 and C6/7 levels [Figure 3a and b]. Preoperative imaging again was not available to enable us to calculate the preoperative O-C2 angle.

Figure 3:: (a) Case 2 preoperative image; cervical spine X-ray showing the C4/5 subluxation below occipitocervical fixation (b) Case 2 preoperative image; MRI cervical spine T2 sagittal showing cord compression at C4/5.

A video fluoroscopy swallow study was performed. This showed no obstructive pathology but there was an abnormality in the pharyngeal stage of swallow. Hyoid tilt and elevation were reduced leading to incomplete laryngeal elevation, epiglottal flip, and cricopharyngeal sphincter opening. With thin fluids, laryngeal penetration was seen during the swallow under epiglottis.

We undertook a two-stage procedure to deal with cord compression, improve the brachalgia, and also to improve her dysphagia and dropped head.

She initially underwent an anterior procedure with C4 to C7 anterior cervical discectomy and fixation and plate.

Two weeks later, she had the second-stage operation with a posterior approach. The cranial fixation was removed, and she had C1 to C7 instrumented fusion with onlay bone graft [Figure 4a].

Figure 4:: (a) Case 2 postoperative lateral X-ray cervical spine showing removal of the cranial fixation and C4 to C7 anterior cervical discectomy and plate and posterior C1 to C7 fixation (b-d) Case 2 lateral X-ray whole spine showing how the alignment of the whole spine also improves from before revision surgery, after the first stage and then after the second stage. The head is also no longer drooped after the revision surgery.

She was mobilized with an Aspen postoperatively. Collar was gradually weaned off after recovery from surgery. However, a custom-made cervical orthoses were provided for use whenever she was out of the house.

Postoperatively, her myelopathy and brachalgia improved. Her dysphagia improved gradually and in fact she gained 8 kilos in 6 months after surgery. The patient also reported improved posture and much better head position and forward gaze [Figures 4b-d]. She remained well at 18 months postoperative check and will be followed up long term.

DISCUSSION

As early as in 1927, Forester first performed occipitocervical reconstruction using a fibular strut graft.[1,4] Since then, OCF has become a widely used technique to treat craniocervical junction instability due to trauma, rheumatoid arthritis, infection, tumor, congenital deformity, and degenerative processes.

Dysphagia after OCF is an uncommon but increasingly recognized phenomenon.[3,5,7,11,12,16] According to the literature, the rate of dysphagia after OCF ranges from 9.5% to 26.3%.[8-10] The causes of postoperative dysphagia after OCF are speculated to be multifactorial. Pharyngeal edema, intubation injury, oropharyngeal space narrowing secondary to upper cervical overflexion or subaxial cervical hyperlordosis, and lack of neuromuscular coordination of swallowing muscles all could play a role in the pathogenesis of dysphagia.[15]

While dysphagia from most of the above causes fortunately resolves within a few weeks, dysphagia which results from fixed craniocervical malalignment tends to persist. Morishima et al.[13] proposed the possible reasons for postoperative dysphagia in patients with craniocervical malalignment. First, the head position influences tonic neck reflexes and muscle length, which alter genioglossal muscle activity. Second, the head position alters tongue position and the relationship of structures of the posterior oropharyngeal cavity. In addition, patients who have been in a fixed kyphotic position may suffer from contractures of the suprahyoid muscle, causing biomechanical compromise in a relatively neutral position. Miyata et al.[12] reported that the difference in the O-C2 angle before and after OCF was linearly correlated with the percentage change in area of the oropharynx. In another study, a radiographic analysis of swallowing function by means of plain lateral cervical radiographs in normal volunteers was performed. A decrease in the O-C2 angle resulted in a reduction of the anterior-posterior distance of the narrowest portion of the oropharyngeal space. The mandible shifts posteriorly resulting in a decrease in the volume of the bony container around the oropharynx. The results of these studies indicate that dysphagia is strongly associated with a negative O-C2 angle in OCF.

Takami et al.[16] tested various techniques for computing the occipitocervical angle (O-C2 angle) and concluded that the angle between the McGregor line and the line parallel to the inferior endplate of the C2 vertebrae was the most reliable and reproducible [Figure 5].

Figure 5:: O-C2 angle: The angle between the McGregor line and the line parallel to the inferior endplate of the C2 vertebrae.

To increase exposure, the craniocervical junction may be malpositioned in a hyperflexed position for a better exposure and for a convenient angle for screw placement, which, in turn, results in a decrease of the O-C2 angle postoperatively.

Only a small decrease in O-C2A could result in an obvious reduction in the oropharyngeal space which, in turn, could impose a significant impact on the development of dysphagia.[11] Many studies have suggested that it is important to maintain the postoperative O-C2A the same as the preoperative O-C2A.[5,7,12,14]

If the preoperative imaging is not available, then it becomes difficult to calculate the optimal O-C2 angle during the revision surgery. There is then a danger that revision surgery with just recontouring of the rod to fix the head in a different position may not improve the dysphagia.

There are also reports of swallowing problems even when the OCF is done in an ideal position.[16]

There are other disadvantages to an OCF. Long-term follow-up has indicated that improper occipitocervical angles not only caused clinical dissatisfaction among patients with neck stiffness and pain, limitation of neck activity, but may also cause poor fusion and abnormalities of the lower cervical curvature and accelerated degeneration.[6]

Some surgeons prefer occipitoaxial or OCF in atlantoaxial instability because it is technically relatively easier to perform and is relatively risk free compared with direct exposure of the facets of atlas and axis and atlantoaxial facet fixation.

However, Goel suggested that inclusion of the occipital bone for fixation of the atlantoaxial joint results in a suboptimally strong construct and should be avoided.[2,3] In most cases of craniovertebral junction region related instability, the atlantoaxial joint is the unstable joint, and occipitoaxial instability is only infrequent or rare. For any kind of instability, segmental fixation is crucial. For atlantoaxial instability, atlantoaxial fixation should be done. Goel et al. gone on to question whether OCF is necessary at all for primary atlantoaxial subluxation.[3]

The possibility of implant failure has been noted to be significantly higher in cases where OCF rather than atlantoaxial fixation was done.[15]

For all the above reasons, it seems reasonable to try and remove the cranial fixation if possible, during revision of OCF for atlantoaxial instability.

However, shortening the OCF to atlantoaxial fixation carries some risks. There may be degeneration which has developed in a previously fixed segment and this might cause severe pain when the segment then becomes mobile.

Furthermore, the posterior craniocervical muscles may have weakened and may not be strong enough to support the head in extension after removal of the cranial fixation.

However, the two cases we described have had a very good clinical result with improvement in their posture and head position in addition to improvement of their dysphagia, after removal of the cranial fixation. By allowing free movement of the head in relation to the cervical spine, the oropharyngeal space is restored and it is likely that the tongue and upper pharyngeal muscles can operate normally, all of which together improve dysphagia. No significant weakness of the head extensor muscles or head ptosis has been noticed by the patients and in fact both have good horizontal gaze.

We hope that this discussion will help the decision-making process if one faces this complex problem.

CONCLUSION

In cases of C1/C2 instability, it is preferable to perform C1/C2 fusion rather than OCF. If performing an OCF, care must be taken to fix the head at the same O-C2 angle as preoperative. When an OCF done for C1 C2 instability ends up causing dysphagia, it is feasible and effective to shorten the rostral construct by removing the cranial fixation and fusing to C1 instead.

Declaration of patient consent

The authors certify that they have obtained all appropriate patient consent.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

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