Multilevel Oblique Corpectomy Research Articles

Managing Spondylotic Cervical Myeloradiculopathy Using Oblique Cervical Corpectomy

IntroductionThe technique of oblique cervical corpectomy describes preservation of significant portion of the anterior and lateral aspects of the vertebral body.1 In 1999, Ozer et al described a te...

Multilevel oblique corpectomies as an effective surgical option to treat cervical chordoma in a young girl

Chordomas are malignant tumors arising from notochordal remnants. They are the most frequent tumors of the spine after plasmacytomas. Only 6% of chordomas are localized to the cervical level. In young patients, chordomas are rare and unpredictable. Despite this, the treatment of choice remains the total resection, as much as possible, followed by proton beam radiation. This case was managed using a precarotid and retrocarotid approach at the same time. The tumor was completely resected with the edges free from disease. The cervical spine was stabilized with an anterior plating C2-C4. Eighteen months after surgery the patient is still free from illness. Multilevel oblique corpectomies are an available and safe option for the treatment of upper cervical chordomas.

Answer to the Letter to the Editor of J.M. Duart Clemente et al. concerning “multilevel oblique corpectomy for cervical spondylotic myelopathy preserves segmental motion” by AG Chacko, M Joseph, MK Turel, K Prabhu, RT Daniel, KS Jacob (2012) Eur Spine J. 2012;21(7):1360–1367

We thank J.M. Duart Clemente et al. for their interest in our article and raising important issues. Interestingly, the incidence of preoperative neck pain was low in our series despite this being a younger cohort of patients without degenerated and fused spines. In addition, neck pain was not a complaint noted during the follow-up period though we have not presented this in the results. We agree that the main goal of surgery is decompression for neurological improvement and not motion preservation. Ours was a unique group of younger patients with soft discs that stands in contrast to the older set of patients with degenerated and largely fused spines reported in Western series [1]. Having performed the oblique corpectomy with good outcomes, we noted the preservation of motion in the short term as a secondary finding that has not been reported previously with this technique. We have also documented a reduction in cervical motion with longer follow-up indicating that the body tends to fuse the spine with production of anterior osteophytes in this relentlessly progressive degenerative disease [2]. Furthermore, the analysis of data from our consecutive series of 153 patients demonstrated that the neurological function and thereby functional outcome was markedly improved following oblique corpectomy. This improved status remained without secondary worsening on long-term follow-up [3]. The technique of oblique corpectomy ensures the removal of the entire posterior surfaces of the affected vertebrae compressing the cord at presentation. The subsequent “cervicoarthrosis” that could reform on the long term are predominantly at the anterior surfaces of the vertebrae and cannot, therefore, endanger the decompressed spinal cord. This would explain the lack of progressive neurological deterioration at least due to a compressive element at the segments treated. We agree wholeheartedly that although motion preservation is not the primary objective of this surgery, we could avoid or at least retard the development of adjacent segment disease. Long-term follow-up is, of course, mandatory to ensure that these patients do not develop progressive kyphosis or adjacent segment disease.

Clinico-biomechanical considerations on oblique corpectomy. Response to: Multilevel oblique corpectomy for cervical spondylotic myelopathy preserves segmental motion (by A.G. Chacko et al.)

We read with interest the article by Chacko et al. [1] “Multilevel oblique corpectomy for cervical spondylotic myelopathy preserves segmental motion”; the authors are to be congratulated for their series shown in the article. Certainly, oblique corpectomy described and divulged by George [2] may be an alternative for decompression without fusion in ankylosed spines. It allows for full anterior foraminotomy with direct proximal root control, as well as central canal decompression in patients suffering from stenotic myelopathy. Some complications have been described as Horner’s syndrome, mostly transient. This procedure is interesting for patients that are not candidates for posterior decompressive procedures because of non-lordotic alignment and in whom instability is discarded with preoperative flexion–extension X-rays and not expected because of the degenerated discs and less bone removal, not needing additional instrumentation. This technique requires a learning curve and good patients’ selection, as well as vertebral artery control without remarkable reported vascular complications. We would like to discuss a couple of points. Cervicoarthrosis—the cause of stenotic myelopathy—may be silent, but when it “wakes up” most of the times shows as neck pain. On the other hand, patients treated with anterior decompressive and reconstructive procedures have less postoperative residual axial neck pain than after posterior procedures. According to some other groups which do not restrict the technique to kyphotic alignment, some patients may develop new axial pain (as well as kyphosis) [3], though most of patients with preoperative neck pain improved on pain and most of those without it stayed the same, though few in the latter group worsened a little bit [4]. The goal of surgery is improvement of neurological compromise and decrease in pain, not keeping motion; the need for pain-killers is neither assessed pre and postoperatively nor compared with standard anterior corpectomy and fusion (ACF), so we suggest that in the future it could be investigated whether there is any difference, in patients treated with this technique in comparison with the standard. Another concern is on the biomechanical consequences on the long term. Osteophytes are thought to be the attempt of the body trying to immobilize the unstable and painful segment. The biomechanical study for this surgical technique used non-collapsed disc specimens [5] and quantified the destabilizing effect of it, though kinematics is altered considerably less than that for standard corpectomy (even after plating). Given the kyphosing effect of this technique in the mentioned young population (1:3) with relatively healthy non-collapsed discs and thus mobile function kept, concern raises about what the future holds for these segments; motion preservation may be important specially in young patients, but it should not compromise future neurological function.

Multilevel oblique corpectomy for cervical spondylotic myelopathy preserves segmental motion

To document the neurological outcome, spinal alignment and segmental range of movement after oblique cervical corpectomy (OCC) for cervical compressive myelopathy. This retrospective study included 109 patients--93 with cervical spondylotic myelopathy and 16 with ossified posterior longitudinal ligament in whom spinal curvature and range of segmental movements were assessed on neutral and dynamic cervical radiographs. Neurological function was measured by Nurick's grade and modified Japanese Orthopedic Association (JOA) scores. Eighty-eight patients (81%) underwent either a single- or two-level corpectomy; the remaining (19%) undergoing three- or four-level corpectomies. The average duration of follow-up was 30.52 months. The Nurick's grade and the JOA scores showed statistically significant improvements after surgery (p < 0.001). The mean postoperative segmental angle in the neutral position straightened by 4.7 ± 6.5°. The residual segmental range of movement for a single-level corpectomy was 16.7° (59.7% of the preoperative value), for two-level corpectomy it was 20.0° (67.2%) and for three-level corpectomies it was 22.9° (74.3%). 63% of patients with lordotic spines continued to have lordosis postoperatively while only one became kyphotic without clinical worsening. Four patients with preoperative kyphotic spines showed no change in spine curvature. None developed spinal instability. The OCC preserves segmental motion in the short-term, however, the tendency towards straightening of the spine, albeit without clinical worsening, warrants serial follow-up imaging to determine whether this motion preservation is long lasting.

Cervical Spondylotic Myelopathy Treated with Multilevel Oblique Corpectomy. A Review of 29 Cases.

Study Design: We reviewed our surgical experience and results in 29 patients operated upon by multiple oblique corpectomy without fusion for cervical spondylotic myelopathy. Objective: To review the safety, efficacy and surgical experience of multiple oblique corpectomy in carefully selected 29 patients, through anterolateral corridor to thecervical spine without the need for vertebral fusion or stabilization. Methods: Between March 2007 and April 2011, 29 patients have been treated with multiple oblique corpectomy technique for cervical spondylotic myelopathy.The functional status was assessed using the modified Japanese Orthopedic Association Score preoperatively and at 1,6,12 months postoperatively. Radiological Assessment was done preoperatively with MRI, CT scan and plain radiograph, and postoperatively on the following 1,6,12 months after surgery and routinely prior to discharge. Results: Among the 29 patients (19 males and 10 females) with a mean preoperative duration of symptoms for of 11.7 months. Satisfactory significant recovery occurred in 20 patients, 5 patients had no clinical improvement and 4 patients had variable degrees of clinical deterioration. Only one patient showed an evidence of spinal instability postoperatively. Conclusion: The multiple oblique corpectomy is a safe and effective technique in removal of the anterior compressing spurs to the spinal cord. No fusion is required regardless the number of the levels. The short recovery period, few complications rate with satisfactory significant outcome make this technique a better surgical option for cervical spondylotic myelopathy in selected patients.(2012ESJ003)

Comparison of multilevel oblique corpectomy with and without image guided navigation for multi-segmental cervical spondylotic myelopathy

Objective: Multilevel Oblique Corpectomy (MOC) is an emerging technique for surgical treatment of multi-segmental cervical spondylotic myelopathy (CSM) featuring extensive ossification of the posterior longitudinal ligament (OPLL). However, the use of an oblique drilling plane is unfamiliar to most surgeons and there is no anatomical landmark present on the posterior portion of the vertebral body. To overcome these difficulties, the authors used intraoperative C-arm-based image guided navigation (IGN), and this study was conducted to evaluate the efficacy of IGN in MOC.Methods: Following the introduction of IGN for MOC, 24 patients underwent MOC procedures at our institution. Two patients who had undergone previous cervical operations were excluded from the present study. Of the remaining 22 patients, 11 underwent MOC with IGN, and 11 underwent MOC without IGN support. The completeness of MOC (CMOC) is measured as the sum of the bilateral remaining posterior body minus the remaining approach-side anterior body in millimeters at the most compressive level. For each patient, the preoperative Japanese Orthopaedic Association Score (JOAS) and postoperative 5th day JOAS were collected as well as several other perioperative parameters.Results: The mean CMOC was 0.89 mm for the IGN group and 5.9 mm for the control group. The mean change in JOAS was 5.58 for the IGN group and 3.34 for the control group at 1-year follow-up. In the control group, two patients underwent re-exploration due to remaining OPLL. Despite the intraoperative IGN set-up time, the mean operation time for the IGN group was shorter than that for the control group (248 min versus 259 min). Mean treated levels were 3.55 for the IGN group and 3.36 for the control group.Conclusion: Through the use of image guided navigation, it was possible to accomplish faster and more complete MOC.

The lateral approach to intraspinal reimplantation of the brachial plexus

Intraspinal re-implantation after traumatic avulsion of the brachial plexus is a relatively new technique. Three different approaches to the spinal cord have been described to date, namely the posterior scapular, anterolateral interscalenic multilevel oblique corpectomy and the pure lateral. We describe an anatomical study of the pure lateral approach, based on our clinical experience and studies on cadavers.

Multilevel oblique corpectomy without fusion in managing cervical myelopathy: long-term outcome and stability evaluation in 268 patients

The multilevel oblique corpectomy (MOC) allows widening of the spinal canal and foramen trough via an anterolateral access to the cervical spine with control of the vertebral artery and does not require vertebral stabilization or fusion. In the present study, the authors' goal was to demonstrate the long-term efficacy and safety of MOC in the treatment of selected cases of spondylotic myelopathy. The authors conducted a prospective study in a series of 268 patients who underwent MOC for cervical spondylotic myelopathy over a 14-year period. Preoperative and postoperative neurological functioning were evaluated with the modified Japanese Orthopaedic Association scale. Spinal stability was assessed in all patients on serial plain and dynamic cervical radiographs at the last follow-up. The degree of canal expansion after MOC was also measured using the spinal canal/vertebral body ratio, and directly by measuring the diameter of osseous canal on pre- and postoperative CT scans and high-resolution MR images. At a mean follow-up of 96 months, clinical improvement was recorded in 86.6% of patients with a global recovery rate of 87.6%, clinical stability in 8%, and worsening in 5%. Long-term spinal stability was demonstrated in 98% of patients. Multilevel oblique corpectomy was demonstrated to be a safe procedure that provided good results in terms of improved functional status and long-term spinal stability.

P25. Comparison Between Multi-level Oblique Corpectomy with or without Image-guided Navigation for Multi-segmental Cervical Spondylotic Myelopathy

P25. Comparison Between Multi-level Oblique Corpectomy with or without Image-guided Navigation for Multi-segmental Cervical Spondylotic Myelopathy

MULTILEVEL OBLIQUE CORPECTOMIES

We describe extensively the multilevel oblique corpectomy technique with its advantages, disadvantages, indications, and biomechanical effects. This procedure is an alternative to the anterior corpectomy. Multilevel oblique corpectomy can be indicated in spondylotic myelopathy, whether or not it is associated with unilateral radiculopathy. Certain conditions must be fulfilled: anterior compression must be predominant, the spine must be kyphotic or straight, preoperative instability has to be excluded, and intervertebral discs have to be dehydrated and collapsed. The lateral aspect of the cervical spine is reached and the vertebral artery is controlled through a lateral approach. The lateral part of the pathological intervertebral discs is removed. Then, the lateral portion of the vertebral body is drilled to create an 8-mm wide vertical trench. When the posterior cortical bone as well as the superior and inferior end plates are reached, the microscope is moved obliquely to extend the drilling horizontally as long as required, up to the contralateral pedicle if necessary. Next, the posterior cortical bone and the posterior longitudinal ligament are removed to completely decompress the spinal cord. In the case of radiculopathy, the ipsilateral foramen can be completely opened by taking away the uncovertebral joint after its lateral aspect has been separated from the vertebral artery. The multilevel oblique corpectomy technique allows wide anterior decompression of the spinal cord and complete unilateral nerve root decompression. Using this technique, the spinal stability is preserved and osteoarthrodesis is not required. Spinal motions are preserved and appear close to normal.

Multilevel Cervical Oblique Corpectomy in the Treatment of Ossified Posterior Longitudinal Ligament in the Presence of Ossified Anterior Longitudinal Ligament

Clinical study. To highlight the value of the oblique corpectomy in managing patients with cervical myelopathy caused by extensive ossified posterior longitudinal ligament (OPLL) who also have a coexisting ossified anterior longitudinal ligament (OALL). OPLL, OALL, and diffuse idiopathic skeletal hyperostosis (DISH) may coexist, and the surgical treatment is varied. Patients with cervical myelopathy who are asymptomatic for the OALL may be managed by either anterior or posterior approaches, while those with dysphagia are best managed by an anterior approach that can deal with both pathologies simultaneously. The OALL resection is indicated only if symptomatic. The central corpectomy, while a good option for anterior decompression, requires complex reconstruction procedures. The oblique corpectomy preserves the ventral half of the vertebral body and does not require stabilization. In a series of 135 patients undergoing multilevel oblique corpectomy for cervical myelopathy, 3 had OPLL with massive OALL that was asymptomatic. The OPLL was removed using microdrills while preserving the OALL. Preoperative and postoperative MR imaging assessed cord compression and spinal alignment, whereas dynamic plain roentgenography assessed stability. Patients were assessed clinically for signs of dysphagia and dysphonia. The cervical myelopathy improved in all 3 patients at a follow-up of 3 years, 1 year, and 6 months, respectively, with no development of dysphagia. One patient had a Horner's syndrome that improved by 6 months and another had a C5 radiculopathy that was improving by 6 months. Imaging showed good decompression of the spinal cord, with no kyphosis or instability. The oblique corpectomy is a surgical option in patients with asymptomatic OALL in the setting of progressive myelopathy due to OPLL with intrinsic stability as a result of their OALL. This technique avoids a multilevel central corpectomy that is associated with significant instability often requiring reconstructive procedures.

Multilevel Oblique Corpectomy Without Fusion

The authors provide their results in performing multilevel oblique corpectomy for degenerative spondylotic myelopathy in 48 patients. To demonstrate the efficacy and safety of the multilevel oblique corpectomy when applied in selected cases. The technique of multilevel oblique corporectomies for treatment of cervical spondylogenetic myeloradiculopathies allows anterolateral access to the cervical spine so that the spinal canal and conjugate foramen can be widened at more than one level, without the need for vertebral stabilization. During a 7-year period, multilevel oblique corpectomy was performed in 48 consecutive patients for degenerative spondylotic myelopathy. The outcomes were analyzed according to the Japanese Orthopaedic Association classification modified to Western customs, and according to Nurick's scale 1 month, 1 year, and 2 years after surgery. Spinal stability was evaluated in all patients by plain radiograph films of the cervical spine, lateral views in flexion and extension, on discharge, 1 month and 1 year after operation. Significant clinical improvement occurred in 29 patients with a complete functional recovery in 22; moderate improvement was achieved in 12 patients; neurological status remained stable in 5, and it worsened in 2. All patients showed spinal stability. Multilevel oblique corpectomy was found to be a safe technique that guarantees good results in terms of both regression of clinical symptoms and long-term spinal stability.

Biomechanical analysis of cervical multilevel oblique corpectomy: an in vitro study in sheep.

Anterolateral oblique corpectomy is an alternative approach to treatment of multilevel cervical spinal disease. It is stated that the approach does not cause instability in the patients with hard discs, so fusion or instrumentation is not required. The authors undertook a study on stability of the cervical spine by an animal model to establish if this approach causes instability. Thirty-seven C3 to C6 spinal segments obtained from 3 to 4-year-old male sheep were used. In vitro maximal loading values were obtained from seven sheep cervical specimens for flexion, extension, lateral flexion in both directions, axial rotation in both directions and axial loading, and load deformation curves were drawn by an electrohydrolic testing machine. Other specimens were divided into three groups: Control (n=10), C4 (n=10) and C4-5 (n=10) groups. In two study groups, one or two level oblique corpectomies were performed. In the control and study groups, biomechanical tests were obtained according to the maximal loading values. Load-deformation curves were drawn and displacement amounts were determined for all seven movements. No statistically significant differences were observed in load deformation curves and displacement amounts between all three groups for seven movements. These results support the opinion that anterolateral oblique corpectomy does not cause cervical instability.

Multisegmental cervical spondylotic myelopathy and radiculopathy treated by multilevel oblique corpectomies without fusion.

The description of the technique of multilevel oblique corpectomy (MOC) without fusion in the treatment of spondylotic myelopathy and radiculopathy and the analysis of the results of this technique from a series of 101 cases are presented. MOC is performed using an anterolateral approach with control of the vertebral artery. The vertebral bodies are drilled obliquely from the lateral side toward the opposite posterolateral corner. More than half of the vertebral bodies are preserved, and no fusion procedure is required. The series of patients from 1992 through 1997 included 54 men and 47 women, with an average age of 57.9 years, who presented with myelopathy (n = 66) or radiculopathy (n = 35). MOC was realized on one to five levels from C2-C3 to C7-T1. Follow-up data were obtained by performing dynamic roentgenography, computed tomography, and magnetic resonance imaging 2 months, 1 year, and 3 years after surgery. The results (Japanese Orthopedic Association score) were improvement in 82% of the patients, worsening in 8%, and stabilization in 10%. Better results were observed in younger patients (<50 yr). No relation between results and duration of symptoms or number of levels could be established. One death occurred as a result of multiorgan failure. No late deterioration was observed; however, three patients with particular features showed delayed instability requiring fusion. MOC is a safe and efficient technique. It must be applied for patients with anterior compression and straight or kyphotic axis of the spine. No fusion is required regardless of the number of levels, providing there are no soft discs and there is no preoperative instability.

Multisegmental Cervical Spondylotic Myelopathy and Radiculopathy Treated by Multilevel Oblique Corpectomies without Fusion

Multisegmental Cervical Spondylotic Myelopathy and Radiculopathy Treated by Multilevel Oblique Corpectomies without Fusion

Multisegmental Cervical Spondylotic Myelopathy and Radiculopathy Treated by Multilevel Oblique Corpectomies without Fusion

Multisegmental Cervical Spondylotic Myelopathy and Radiculopathy Treated by Multilevel Oblique Corpectomies without Fusion

Multisegmental Cervical Spondylotic Myelopathy and Radiculopathy Treated by Multilevel Oblique Corpectomies without Fusion

Multisegmental Cervical Spondylotic Myelopathy and Radiculopathy Treated by Multilevel Oblique Corpectomies without Fusion