C5 palsy in the treatment of cervical spondylosis myelopathy with ossification of the posterior longitudinal ligament

Background There are many factors that affect the C5 palsy in the of cervical myelopathy (CSM) with ossification of the posterior longitudinal ligament (OPLL), but the spinal compression degrees may be an important factor in affection on it. Objective The purpose of this study was to evaluate the effect of spinal cord compression degrees on the clinical outcomes of OPLL patients which been treated by anterior and posterior surgery. Methods From May 2010 to October 2017, 145 patients cervical spondylosis myelopathy with OPLL (spinal canal narrowing by the OPLL exceeded 30%) were enrolled in this study; 76 patients received anterior cervical corpectomy and fusion surgery (ACCF), and 69 patients had posterior cervical decompression and laminoplasty procedures (PCDL). The clinical outcomes of pain relief (visual analog scale, VAS), functional disability (neck disability index, NDI) were recorded at baseline and at the final follow-up. Results There were five patients with C5 palsy in this series cases (two in ACCF and three in PCDL), and the rate is 4.1% (3.2% in ACCF and 5.2% in PCDL, P > 0.05). Five C5 palsy cases had more than 50% compressed degrees of dural sac and flattened spinal cord, and the compressed dural sac and flattened spinal cord had totally expansion after operation. There were no patients resented with CSF leakage in PCDL group, and six patients presented with CSF leakage in ACCF. The mean postoperative canal diameter were significant better than preoperative in PDL patients (P < 0.01). The average spinal sagittal and axial compressive ratio were significantly decreased from preoperative in ACR and PDL groups (P < 0.01). The mean cervical ROM values were decreased in ACR and PDL groups (P< 0.05). Conclusions Based on the results of this study, anterior and posterior surgery was effective and safe in the treatment of the OPLL patients. The complication of C5 palsy were no related in the surgery methods, but may be related the degrees of spinal cord compressed. patients in ACCF patients, and no change in two patients in PCDL. postoperative canal diameter was no significant difference compare to preoperative in ACCF patients (from 12.46 ± 1.76 to 12.37 ± 1.82 mm, P > 0.05), and than preoperative in PCDL patients (from 12.65 ± 1.63 to 18.34 ± 2.67 mm, P < 0.01). The spinal average sagittal and axial compressive ratio were significantly decreased from preoperative 62.58 ± 14.61 to 2.12 ± 1.26 and 63.65 ± 15.83 to 2.61 ± 1.53 in ACCR group (P 0.01), and from preoperative 63.89 ± 15.46 to 3.48 ± 1.39 and 64.76 ± 16.35 to 3.55 ± 1.54 in PCDL group (P CD = Canal diameter, SCR = Spinal sagittal compressive ratio, SACR = Spinal compressive ratio


Introduction
Cervical spondylosis myelopathy (CSM) is a neurological disorder caused by the narrowing of the cervical spinal canal as a result of degenerative changes in the cervical spine with the advancing age in the population. [1][2][3] Various pathologic processes in the cervical spine may cause mechanical compression of the spinal cord and yield to degenerative cervical myelopathy, and the ossification of the posterior longitudinal ligament (OPLL) has been recognized as one of the most common causes of severe cervical myelopathy. [4,5] Since OPLL is a multifactorial disease and the clinical symptoms are severe and progressive, conservative treatment is not effective and surgical intervention is indicated. [1,[6][7][8] Surgical strategies for cervical myelopathy due to OPLL can be divided into anterior and posterior approach, and the performed procedures decision was based on the pathologic features of the CSM. [2,7,8] Although anterior and posterior approach has its advantages and limitations, surgery share the same goal of decompression the spinal cord and relieving neurological compression form restore spinal canal space for spinal cord. [6,9] Although the surgical strategy for severe OPLL still remains controversial, the surgery of the anterior corpectomy or posterior laminoplasty had good clinical outcomes. [10,11] The posterior laminoplasty recommended for serve OPLL because it is a quick and safe operation resulting in neurological improvement from posterior decompression of the cervical spinal cord after laminoplasty. [12,8] The anterior surgery provide a good surgical outcome for radical decompression by directly removing the OPLL and other anterior pathogenic structures. [13,14] With the development of technology and surgical procedures, the complications of anterior and posterior surgery for OPLL were decreased significantly than before. [15,8] However, the complication of C5 palsy were not diminished with the development of anterior and posterior surgery. [16][17][18] The complication of C5 palsy, which been considered main in the posterior surgery, have been found still in the anterior surgery of CSM, especially in OPLL. [19,13,1,9,20,21] The C5 palsy in OPLL patients was the cervical spinal cord injuries, which different from other spinal cord injuries because of ossification induced narrowing of the spinal canal and limitation of intervertebral mobility. [21,22,18,20] There are many factors that affect the C5 palsy in surgical treatment of OPLL, but the spinal canal stenosis and the spinal compression degrees may be an important factor in affection on it. The purpose of this study was to evaluate the effect of spinal canal stenosis and spinal cord compression degrees on the clinical outcomes of OPLL patients which been treated by anterior or posterior surgery in our clinical.

Materials And Methods
From May 2010 to October 2017, consecutive CMS patients of OPLL (ossification occupying more than 30% diameter of the spinal canal on computed tomography (CT) and magnetic resonance (MR) images were enrolled in this study. One hundred and forty-five patients initially fulfilled the study criteria, and twenty-four patients were lost to follow-up. Of the remaining 121 patients available for analysis, 63 patients received anterior cervical corpectomy and fusion surgery (ACCF, included 44 men and 19 women with an average age of 51.86 ± 9.45 years), and 58 patients had posterior cervical decompression and laminoplasty procedures (PCDL, included 41 men and 17 women with an average age of 52.18 ± 9.62 years). The inclusion criteria were CSM patients of OPLL (ossification occupying more than 30% diameter of the spinal canal on CT and MR images). Exclusion criteria included pathologic conditions of the cervical spine (trauma, tumor, or infection). The two groups had similar age and sex distribution, ossification occupying, and the pain history (Table 1).

Surgical Procedures
Under general anesthesia, the ACCF procedure was performed in the standard fashion reported in previous studies. [6,2,23] The OPLL was separated from dura and meticulously separated using the micro dissector and removed by Kerrison rongeur or micro curettes. If the OPLL was associated with dural ossification, this portion of dura was carefully preserved using the anterior floating method to avoid dural tears (Fig. 1). The PCDL procedure was performed in the standard fashion reported in previous studies, and ligamentum flava at the cranial and caudal ends of the intended laminar expansion was removed by a thin-bladed rongeur (Fig. 1). [16,17,24] Brace support was recommended for 4-6 weeks after surgery.

Critical Of Clinical Outcomes
The clinical outcomes of pain relief (visual analog scale, VAS), functional disability (neck disability index, NDI) were recorded at baseline and at the final follow-up. All patients had preoperative and post-operative plain radiographs, CT scans, and magnetic resonance (MR) images. The focus was to evaluate five radiographic characteristics at follow-up: (1) cervical lordosis, (2) Sagittal spinal canal diameter, (3) the ossification of the most stenotic area, (4) status of spinal cord (spinal cord compression or decompression).

Statistical analysis
All measurements were performed by a single observer and are expressed as means ± SD. Using the SPSS 17.0 statistics software, classic t-test and chi-square test were performed.

Results
There was no intraoperative death in this series. In ends 121 cases had follow-up at least one year and 24 cases lost, and the follow-up rate was 82.89% (63/76) in ACCF group and 84.06% (58/69) in PCDL group (P > 0.05). The followed time was from 18 to 31 months (average 23 months), and average 23.57 ± 6.42 months in ACCF group and 24.38 ± 7.73 months in PCDL group (P > 0.05).
There were five patients with C5 palsy in this series cases (two in ACCF and three in PCDL), and the rate is 4.1% (3.2% in ACCF and 5.2% in PCDL, P > 0.05). Five C5 palsy cases were the most compressed degrees of dural sac and flattened spinal cord more than 50%, and all had totally expansion after operation. The two patients with C5 palsy were recovered after 3 months of neurotrophy drugs, hyperbaric oxygen and rehabilitation training after the operation. Three complications of bilateral C5 palsy related to PCDL group patients. C5 palsy developed at immediately postoperatively, and the patient was treated conservatively including neurotrophy drugs, highpressure oxygen therapy, and functional exercises. Two case strength of the paralyzed muscles recovered one case after three months, the other case did not recover which can capable of independent self-care after three courses of hyperbaric oxygen and rehabilitation training 1 year after the operation.
There were no patients resented with cerebrospinal fluid (CSF) leakage in PCDL group. Six patients presented with CSF leakage in ACCF, which indicated dural defect and tearing during the operation.
When CSF leakage occurred after operation, the drainage tube was pulled out 24 hours after operation and continuous pressure to the wound was applied. CSF leakage disappeared in six cases after operation seven days. All patients achieved spinal fusion with no cases of cage extrusion. Implant failure and instability were not seen on lateral flexion/extension radiographs of the cervical spine.
The average operational time, blood loose, and hospital days were showed in  The average VAS, NDI, cervical lordosis and canal diameter were showed in Table 3. The mean postoperative VAS was significantly better than preoperative (from 8.67 ± 1.49 to 1.15 ± 0.37 in ACCF, and from 8.61 ± 1.53 to 1.56 ± 0.48 in PCDL, P < 0.01), and no significant difference between two groups (P > 0.05). The average postoperative NDL were significantly better than preoperative (from 66.83 ± 15.26 to 11.17 ± 3.39 in ACCF, and from 65.92 ± 14.78 to 13.64 ± 5.53 in PCDL, P < 0.01), and no significant difference between two groups (P > 0.05). The VAS and NDI were improved all patients in ACCF patients, and no change in two patients in PCDL. The mean postoperative canal diameter was no significant difference compare to preoperative in ACCF patients (from 12.46 ± 1.76 to 12.37 ± 1.82 mm, P > 0.05), and had significantly better than preoperative in PCDL patients (from 12.65 ± 1.63 to 18.34 ± 2.67 mm, P < 0.01). The spinal average sagittal and axial compressive ratio were significantly decreased from preoperative 62.58 ± 14.61 to 2.12 ± 1. 26

Discussion
Ossification of the posterior longitudinal ligament is a common cervical disease that can cause stenotic changes in the spinal canal and contribute to the development of quadriparesis [9,25,8].
Conservative treatment may be effective for some patients. However, for most of the patients, surgical decompression of the spinal cord to prevent the progression of neurological deterioration as rapidly as possible is the most effective measure [25,26]. In general, anterior decompressions by cervical corpectomy and resection of OPLL seem to be an ideal surgical option, and posterior decompression is an alternative choice for severe OPLL when the anterior approach threatens iatrogenic deterioration of the neurological status [9,27,26,8,23]. The results of this study demonstrated the anterior corpectomy and some advantages on the complication of C5 palsy than posterior laminoplasty for OPLL. Although C5 palsy were two in ACCF and three in PCDL, the recovered cases were better in ACCF than PCDL.
It is commonly believed that the spinal cord drift and subsequent stretching of the C5 nerve root, which is more vulnerable than the other roots because of the C5 level, are typically at the apex of the cervical lordosis [27,17,20]. Because OPLL affects chiefly the cervical spine form C3 to C5, the extent of posterior shifting of the cord is greatest at the C5 level [28,26,21]. The cervical spinal cord is compressed and flattened by OPLL, and reduction of the blood supply in the grey matter in the ventral portion of the dorsal columns for small bold vessels was compressed. There may be compression of the spina roots when ossification extends to one of the lateral recesses of the spinal canal [25,26,21]. The degrees of spinal cord drift were more in PCDL than in ACCF, and five complication of C5 palsy were two in ACCF and three in PCDL in this series cases. For this reason, the spinal cord drift may not the reason for complication of C5 palsy in surgery.
Spinal cord movement is limited because the organ is tethered to nerve roots after common laminectomy [25,17,21]. The complication of C5 palsy were not only in anterior corpectomy, but also in posterior laminoplasty. Previous study shown the complication of C5 palsy is associated with the extent of decompression [29,24,20]. CSM can result in regional cord ischemia from the sural sac an spinal cord flattened by OPLL, and long term ischemia leads to an imbalance between spinal cord metabolic demand and oxygen supply [30,26,31,32]. After surgery of ACCF and PCDL, the dural sac and flattened spinal cord were all expansion in this series cases. As previous study shown, the dural sac and spinal cord expansion can lead to spinal cord ischemia-reperfusion injury [33,20,31,34]. In this series, the compression of spinal and expansion of dural sac and flattened spinal cord were similar between two groups. The five C5 palsy cases were the most compressed degrees of dural sac and flattened spinal cord more than 50%, and all had totally expansion after operation. For this reason, the complication may be related to the compression and expansion of spinal cord.
Long term of OPLL compression spinal cord in CSM patients lead the nerve tissue is starved of vital nutrients such as oxygen and glucose [35,33,26,34]. Multiple mechanisms of cell damage are activated following spinal ischemia and reperfusion which can be a function of location in the spine as well as the time elapsed since the onset of ischemia [30,3,27,36,32]. Inflammatory responses are known as a major component of secondary injury of initial ischemic insult and play an important role in modulating the pathogenesis of C5 palsy [37,8,24,20]. Effects of reperfusion, also known as Female patient with 46 years old had serve OPLL take PCDL procedures, preoperative (A) and postoperative (B) images of CT scan. This patient with bilateral C5 palsy at immediately postoperatively, and did not recovered which can capable of independent self-care after three courses of hyperbaric oxygen and rehabilitation training 1 year after the operation