Objective To evaluate the therapeutic effect of open-door cervical expansive laminoplasty (ELP) with anchor fixation on flurosis cervical stenosis (FCS). Methods From February 2005 to February 2006, 20 patients with FCS underwent ELP using anchor fixation (group A) and 24 patients with FCS received ELP using conventional silk thread fixation (group B). In group A, there were 11 males and 9 females aged (58.0 ± 11.2) years old, the course of disease ranged from 6 months to 5 years, and the stenosis involved 3 vertebral levels in 3 cases, 4 levels in 8 cases, and 5 levels in 9 cases, andthe sagittal diameter of the cervical spinal canal was (7.30 ± 5.23) mm. While in group B, there were 11 males and 13 females aged (61.0 ± 9.1) years old, the course of disease ranged from 5 months to 5 years, the stenosis involved 3 vertebral levels in 5 cases, 4 levels in 10 cases, and 5 levels in 9 cases, and the sagittal diameter of the cervical spinal canal was (7.11 ± 4.92) mm. No significant differences were evident between two groups in terms of the general information (P gt; 0.05). Before operation and at 24 months after operation, the nerve function was assessed by JOA score, the axial symptom (AS) was evaluated using Chiba 12-point method, and the changes of cervical lordosis index (CLI) and cervical range of motion (CRM) were detected by imaging examination. Results All wounds healed by first intention. All patients were followed up for 24 months. JOA score: in group A, it was improved from 7.4 ± 1.5 before operation to 14.6 ± 2.1 at 24 months after operation with an improvement rate of 61% ± 3%; in group B, the score was increased from 7.1 ± 2.2 to 12.6 ± 2.5 with an improvement rate of 52% ± 5%; significant differences were evident in two groups between before and after operation, and between two groups in terms of the improvement rate (P lt; 0.05). AS score: in group A, it was improved from 6.2 ± 2.1 before operation to 10.8 ± 0.3 at 24 months after operation with an improvement rate of 74% ± 4%; in group B, the score was increased from 6.3 ± 1.9 to 8.8 ± 0.5 with an improvement rate of 39% ± 3%; significant differences were evident in two groups between before and after operation, and between two groups in terms of improvement rate (P lt; 0.05). X-ray films and CT scan at 24 months after operation displayed that there was no occurrence of “breakage of door spindle” or “re-close of door” in two groups, there was no occurrence of anchor loosing in group A, and the molding of the spinal canal was satisfactory in two groups. Preoperatively, the CLI was 11.9 ± 1.9 in group A and 11.3 ± 2.2 in group B and the CRM was (39.5 ± 2.4)° in group A and (40.2 ± 1.8)° in group B. While at 24 months after operation, the CLI was 9.5 ± 2.2 in group A and 8.2 ± 2.8 in group B, and the CRM was (30.6 ± 2.0)° in group A and (28.7 ± 2.4)° in group B, suggesting there was a significant decrease when compared with the preoperative value and group A was superior to group B (P lt; 0.05). The saggital diameter of the cervical spinal canal 24 months after operation was (13.17 ± 2.12) mm in group A and (12.89 ± 3.21) mm in group B, indicating there was a significant difference when compared with the preoperative value (P lt; 0.01). Conclusion Compared with conventional silk thread fixation, ELP using anchor fixation brings more stabil ity to vertebral lamina, less invasion to the posterior muscular-skeletal structure of the cervical spine, sl ight postoperative neck AS, andsatisfactory cl inical outcomes.
To cure patients suffering from atlanto-axial instability following old fracture of odontoid process concomitant with stenosis of lower end of cervical spinal canal, a new operative method was designed. It included atlanto-axial fusion by Gallie technique and resection of right half of the laminae of C3-C7 spine at one stage. A female of 63 years old was treated. She was admitted with neck pain and numbness of the upper and lower limbs. A history of neck injury was noted in enquiry. In physical examination showed the sensation of pain of the upper limbs was decreased and the muscle power of the upper and lower limbs ranged from III degree to IV degree. The X-ray film and MRI suggested that there was instability of the atlanto-axial joint with stenosis of 4th-6th cervical spinal canal. The operation was satisfactory. After operation, the patient was followed up for 11 months. The physical examination indicated that sensation of the upper limbs had recovered to normal and the muscle power of the upper limbs reached IV degree and that the lower limbs reached V degree and X-ray showed bony fusion of the atlanto-axial joint. The conclusions were: 1. The stability of atlanto-axial joint was reconstructed with expanding of the spinal canal at the same time. 2. The duration, risk and cost of the therapy were reduced, and maintenance of the stability of the cervical spine throughout whole period of treatment was recommended.
Objective To investigate the diagnostic value of MR imaging in cervical spinal canal stenosis combined with spinal cord injury. Methods From August 1998 to May 2008, 41 patients with cervical spinal canal stenosis and spinal cord injury were treated, including 34 males and 7 females aged 32-71 years (average 53.4 years, 27 patients being older than 60 years). Patients’ MRI data were retrospectively analyzed. Injury was caused by fall ing from height in 8 cases, traffic accidentin 19 cases, crush due to heavy objects in 3 cases and other reasons in 11 cases. The time from injury to operation ranged from 2 hours to 3 years. There were 12 cases of anterior spinal cord injury syndrome, 23 of central spinal cord syndrome and 6 of Brown-Sequard syndrome. JOA score of spinal cord function was 3-11 points (average 6.6 points). Results MR imaging diagnosis before operation showed abnormal signal changes within the spinal cord in 37 cases (41 sites), anterior and posterior longitudinal l igaments and discs (APLLD) injury in 28 cases (30 sites) and signal of edema and hematoma signals in anterior surface of cervical spines (EBC) in 34 cases (36 sites). Diagnosis during operation revealed edemas braises, contusions tears of posterior soft tissue in 18 cases (20 sites), appendix fracture in 6 cases (7 sites), formation of EBC in 20 cases (23 sites), APLLD injury in 34 cases (44 sites), intervertebral instabil ity without the rupture of l igament and intervertebral disc in 7 cases (10 sites). Significant difference was evident between the MRI diagnosis before operation and the intraoperative discoveries (P lt; 0.05). Conclusion The MR imaging diagnosis before operation do not correspond to the intraoperative discoveries, indicating that MRI diagnosis fails to make a relatively comprehensive and accurate diagnosis. So it is advisable to make a diagnosis based on cl inical symptoms.
Objective To determine the surgical indications for posterior expansive open-door laminoplasty (EOLP) extended to the C1 level. Methods Seventeen patients undergoing C3-7 or C2-7 open-door laminoplasty were included as the case group between September 2005 and January 2010, whose spinal cord injury symptoms were not alleviated or aggravated again because of the cervical stenosis at C1-4 level, and the causes of the surgery itself were eliminated, all of these patients underwent reoperation with decompress upward to C1 level. Fifteen patients with cervical stenosis who underwent C2-7 laminoplasty and C1 laminectomy were selected as the control group. There was no significant difference in gender, age, and disease duration between 2 groups (P gt; 0.05). The pre- and post-operative cervical curvature and spinal cord compression were evaluated according to the patients’ imaging data; the pre- and post-operative neurological recovery situation was evaluated by Japanese Orthopaedic Association (JOA) 17 score and spinal cord function Frankel grade; the neurological recovery rate (according to Hirabayashi et al. method) was used to assess the postoperative neurological recovery situation. Results In the case group, 8 patients underwent primary C3-7 laminoplasty. In 3 of these patients, there was a cervical stenosis at C1, 2 level, and discontinuous cerebrospinal fluid around the spinal cord was observed; 5 of them with a compression mass which diameter was exceed 7.0 mm in the C2-4 segments. The remaining 9 patients in the case group underwent primary C2-7 laminoplasty, and the diameter of the compression mass was exceed 7.0 mm in the C2-4 segments. In all 17 patients of the case group, reoperation was performed with the decompression range extended to the C1 level, and the follow-up time was 35-61 months with an average of 45.6 months. Cervical curvature: there were 11 cases of cervical lordosis, 4 cases of straight spine, and 2 cases of cervical kyphosis before operation; but after operation, 2 cases of cervical lordosis became straight spine and 1 straight case became kyphosis. The postoperative neurological improvement was excellent in 8 cases, good in 7, and fair in 2. In the control group, all the patients had a compression mass which anteroposterior diameter was exceed 7.0 mm in the C2-4 segments before operation. The follow-up time was 30-58 months with an average of 38.7 months. Cervical curvature: there were 13 cases of cervical lordosis and 2 cases of straight spine before operation; but after operation, 1 case of cervical lordosis became straight spine. The postoperative neurological improvement was excellent in 8 cases, good in 6, and fair in 1. No significant difference was found in the JOA score at pre- and post-operation between 2 groups (P gt; 0.05); however, there were significant differences (P lt; 0.05) in the JOA score between at last follow-up and at preoperation. Conclusion The initially surgical indications which can be used as a reference for EOLP extended to C1 are as follows:① Upper cervical (C1, 2) spinal stenosis: C1 posterior arch above the lower edge part of cerebrospinal fluid around the spinal cord signal is not continuous, and the anteroposterior diameter of the spinal canal actual is less than 8.0 mm as judgment standard. ②There is a huge compression at the lower edge of C2-4 vertebrae, and the most prominent part of the diameter is exceed 7.0 mm, which can not be removed through the anterior cervical surgery, or the operation is high-risk.
ObjectiveTo observe the effectiveness of posterior cervical laminoplasty, and to determine the significance of the classification of spinal cord compression of multi-level cervical spondylotic myelopathy (CSM). MethodsThe clinical data were analyzed from 1 216 cases of multi-level CSM undergoing posterior cervical laminoplasty between February 1998 and February 2013. The patients were divided into 4 groups: soft anterior spinal cord compression and light canal occupation (<50%) in 569 cases (46.8%, group A), soft anterior spinal cord compression and heavy canal occupation (≥ 50%) in 365 cases (30.0%, group B), bony anterior spinal cord compression and light canal occupation in 210 cases (17.3%, group C), and bony anterior spinal cord compression and heavy canal occupation in 72 cases (5.9%, group D). There was no significant difference in gender, age, disease duration, lesion level, and complications among 4 groups (P>0.05). Because of different levels of spinal cord compression, there were significant differences in visual analogue scale (VAS) and Japanese Orthopaedic Association (JOA) score among 4 groups (P<0.05). ResultsCerebrospinal fluid leakage occurred in 9 cases (2 cases in group A, 1 case in group B, 3 cases in group C, and 3 cases in group D), and was cured after symptomatical treatment. There was no postoperative complication of wound infection, lamina re-closing, or C5 nerve root paralysis in 4 groups. The follow-up time ranged from 24 to 74 months (mean, 35 months). In group D, 17 patients (23.6%) had deteriorated symptom at 6-12 months after operation, and good recovery was achieved in the patients of the other 3 groups. At last follow-up, the JOA score and VAS score were significantly improved when compared with the preoperative scores in 4 groups (P<0.05); the JOA score, improvement rate, and VAS score of group D were significantly lower than those of groups A, B, and C (P<0.05), but there was no significant difference among groups A, B, and C (P>0.05). ConclusionIn the multi-level CSM, the anterior compression of the spinal cord should be classified, this has a guiding significance for the prognosis of CSM and the choice of surgical method.
Objective To evaluate the effectiveness of combined posterior decompression with laminoplasty and anterior decompression with fusion for the treatment of cervical spinal canal stenosis with reverse arch. Methods Between May 2009 and February 2012, 13 cases of cervical spinal canal stenosis with reverse arch underwent posterior decompression with laminoplasty surgery in prone position and then anterior decompression with fusion surgery in supine position. There were 7 males and 6 females with an average age of 43.5 years (range, 38-62 years) and an average disease duration of 25 months (range, 18-60 months). All the patients had neck axial symptoms and spinal cord compressed symptoms, and lateral computer radiology (CR) of the neck showed reverse arch of cervical vertebrae. Segments of intervertebral disc protrusion included C3-6 in 4 cases, C4-7 in 4 cases, and C3-7 in 5 cases. After operation, anteroposterior and lateral CR was used to observe the cervical curvature change and fixation loosening, MRI to observe the change of the compression on spinal cord, visual analogue scale (VAS) score to evaluate the improvement of axial symptom, and Japanese Orthopaedic Association (JOA) score to assess the nerve function improvement. Results All incisions healed by first intention. All patients were followed up 9-32 months (mean, 15.4 months). Internal fixator had good position without loosening or breaking and the compression on spinal cord improved significantly after operation. All the patients obtained bony fusion at 6 months after operation. The axial symptoms and the nerve function at last follow-up were improved. VAS score at last follow-up (3.25 ± 1.54) was significantly lower than that at preoperation (6.55 ± 1.52) (P lt; 0.05); JOA score at last follow-up (10.45 ± 4.23) was significantly higher than that at preoperation (7.05 ± 1.32) (P lt; 0.05); and cervical curvature value at last follow-up [(6.53 ± 3.12) mm] was significantly higher than that at preoperation [(3.22 ± 5.15) mm] (P lt; 0.05). Conclusion Combined posterior decompression with laminoplasty and anterior decompression with fusion for the treatment of cervical spinal canal stenosis with reverse arch is a safe and effective surgical method.
Objective To investigate the operational method of cervical vertebral flavectomy and its cl inical appl ication in the management of cervical canal stenosis. Methods From June 1997 to June 2007, 25 patients suffering from cervical spinal canal stenosis caused by obvious flaval l igament hypertrophy were given flavectomy. There were 22 males and 3 females, with an age range of 32 to 68 years (average 54 years). The course of disease was from 3 weeks to 7 years, with an average of 3 years and 7 months. All patients had degenerative cervical canal stenosis; of them, 5 cases had a history of cervical injury 2 to 3 weeks before operation (3 cases of fall ing injury and 2 cases of traffic accident injury). The X-ray film, CT, and MRI examinations showed that the compression locations were C4-7 in 12 cases, C3-7 in 9 cases, C5-7 in 3 cases, and C6,7 in 1 case. Spinous process and vertebral lamella were exposed by central posterior approach. The insertions of flaval l igaments were cut off at the superior vertebral lamella border, then the starting points of which were cut down from the anterior side of the upper vertebral lamella at their inferior border after l ifting up the flaval l igaments. The residual flaval l igaments in front of the vertebral lamella were scraped off by slope rongeur, the dura mater then could be seen to inflate from the intervertebral lamella space, showing the compression having been rel ieved. Twenty-five cases were all given posterior flavectomy. At 1 week to 3 months after operation, 12 patients received anterior cervical discectomy or vertebral gaining decompression with fusion by bone graft. Results The time for flavectomy was from 60 to 180 minutes, with an average of 95 minutes. The blood loss during operation was from 90 to 360 mL, with an average of 210 mL. The dura maters were lacerated by knife tips during operation with the cervical vertebrae in hyperflexion in 2 cases. Immediate suture and repair were performed and there were no postoperative cerebrospinal fluid leakage. All the incisions healed by first intension after operation. All of the 25 cases were followed up from 2 to 10 years, with an average of 3 years and 9 months. All patients had no compl ication of axial symptoms, and no restenosis at their operation site of cervical canal stenosis. The section area ratios of functional spinal canal to spinal cord were 1.12 ± 0.07 before operation and 2.11 ± 0.19 at 24 months after operation, showing significant difference (P lt; 0.05). The range of motion of cervical vertebrae was (39.4 ± 3.2)º befeore operation and (42.1 ± 2.9)° at 24 months after operation in 13 cases without anterior cervical discectomy fusion, showing no significant difference (P gt; 0.05); was (34.3 ± 3.4)° before operation and (29.2 ± 3.6)° at 24 months after operation in 12 cases with anterior cervical discectomy fusion, showing significant difference (P lt; 0.05). The bone graft achieved bony union 3-5 months after operation (average 3.8 months). The Japanese Orthopaedic Association (JOA) scores were 7.9 ± 2.2 before operation and 15.6 ± 1.4 at 24 months after operation, showing significant difference (P lt; 0.05), with an average improvement rate of 86.3%. Conclusion Cervical flavectomy could rel ieve compression to spinal cord and nerves caused by the flaval l igament hypertrophy without damaging the normal integral ity of bony canal, thus avoiding the compl ication of axial symptoms and so on which are encountered in open-door expansile cervical laminoplasty.