Operative Techniques in Orthopaedic Surgery (4 Volume Set) 1st Edition

538. Anterior Cervical Corpectomy and Fusion With Instrumentation

Claude Jarrett and John M. Rhee

DEFINITION

images Cervical myelopathy describes a constellation of signs and symptoms resulting from cervical spinal cord compression. Common symptoms include gait instability, clumsiness and loss of manual dexterity, and glovelike (rather than dermatomal) numbness of the hands.

images Because the presentation of myelopathy can be subtle, especially in its early manifestation, the diagnosis can be missed or wrongly attributed to “aging.”

images Surgical decompression is the mainstay of treatment and can be accomplished anteriorly (ie, corpectomy, discectomy and fusion, or both) or posteriorly (ie, laminectomy and fusion or laminoplasty).

images Anterior corpectomy and fusion will be discussed in this chapter. Corpectomy is performed when retrovertebral compression of the spinal cord exists. If the compression is purely disc-based, corpectomy is not necessary, and an anterior cervical discectomy and fusion approach can be used instead

PATHOGENESIS

images Spondylotic changes (eg, bone spurs, disc degeneration with annular bulging, disc herniations) are the most common causes of cervical cord compression.

images Ossification of the posterior longitudinal ligament (OPLL) is another not uncommon cause of cord compression. It may arise in discrete locations or be continuous (FIG 1A,B).4

images Kyphosis, whether primary or occurring after laminectomy, can also cause cord compression and myelopathy.

images Cervical myelopathy often arises in the setting of a congenitally narrowed cervical canal (FIG 1C,D). In these patients, the cord may have escaped compression during relative youth but not after the accumulation of a threshold amount of spaceoccupying spondylotic changes.

images Although cervical spondylotic myelopathy tends to be a disorder seen in patients 50 years of age or older, depending on the degree of congenital stenosis and the magnitude of the accumulated spondylotic changes, it can be seen in patients who are much younger.

NATURAL HISTORY

images Patients with cervical myelopathy are generally thought to have a poor prognosis without surgical treatment, with a gradual stepwise progression of symptoms.1

HISTORY AND PHYSICAL FINDINGS

images Patients with cervical myelopathy present with a spectrum of upper and lower extremity complaints.

images Upper extremity complaints include a generalized feeling of clumsiness of the arms and hands, “dropping things,” inability to manipulate fine objects such as coins or buttons, trouble with handwriting, and diffuse (nondermatomal) numbness.

images Lower extremity complaints include gait instability, a sense of imbalance when walking, and “bumping into walls” when walking. Family members may comment that the patient walks as if he or she is intoxicated.

images Patients with severe spinal cord compression may also complain of Lhermitte symptoms: electric shock-like sensations that radiate down the spine or into the extremities with certain offending positions of the neck (can occur with either flexion or extension).

images Many myelopathic patients deny any loss of motor strength. Similarly, bowel and bladder symptoms, if present, may arise in the later stages of disease. Despite advanced degrees of spondylosis, many myelopathic patients may have no neck pain.

images Symptomatic nerve root compression can coexist in patients with myelopathy and presents as a myeloradiculopathy.

images Physical examination should include.

images Scapulohumeral reflex testing, which is positive with hyperactive elevation of the scapula or abduction of humerus

images Jaw jerk reflex, which is positive with hyperactive jerking of the jaw. Because cervical cord compression alone will not cause this reflex to be positive, its presence suggests that the origin of upper motor neuron findings in a given patient may arise from the brain rather than the spinal cord.

images Test for the Babinski sign, which is positive if the great toe extends while the remaining toes fan apart.

images Test for the Hoffman sign, which is positive with flexion of the index finger and thumb.

images Inverted radial reflex test, which is positive if one observes flexion of fingers rather than a reflex contraction of the brachioradialis. Positive result suggests cord and root compression at the C5–6 level.

images Test for finger escape sign, which is positive if the little finger (also possibly the ring finger) cannot be held in this position without falling into abduction and flexion for more than 30 seconds. This is suggestive of cervical myelopathy.

images Tandem gait test, which is positive if the patient demonstrates significant instability. A positive result confirms gait imbalance, but in no way specifies the source of the imbalance as being the cervical spinal cord.

IMAGING AND OTHER DIAGNOSTIC STUDIES

images A lateral radiographic view can be helpful in showing the amount of congenital cervical stenosis as well as sagittal alignment.

images Lateral views are consistent with congenital stenosis when the ratio of the diameter of the canal to the diameter of the vertebral body is less than 0.8.

images Particularly if OPLL is suspected, CT scans (with or without myelograms, depending on whether a high-quality MRI is available) are helpful in delineating bony versus soft tissue pathology.

images

FIG 1 A,B.  Ossification of the posterior longitudinal ligament (OPLL). A. Continuous OPLL causing severe spinal canal stenosis from C1 to C4. B. Axial CT scan in a different patient demonstrating a central stalk of OPLL. C,D. Congenital canal. Congenital stenosis is defined as a ratio of the canal to the vertebral body of 0.8 or less, and it can be measured on lateral radiographs (C) or advanced imaging such as CT-myelography (D) (different patients). The CT-myelogram shows superimposed spondylotic changes that further narrow the canal dimensions and cause cord compression.

DIFFERENTIAL DIAGNOSIS

images Of cervical myelopathy.

images Amyotrophic lateral sclerosis

images Myopathies

images Peripheral neuropathy

images Syringomyelia

images Multiple sclerosis

images Diabetic neuropathy

images Brachial plexopathy

NONOPERATIVE MANAGEMENT

images Surgery is the treatment of choice for symptomatic cervical myelopathy.

images Nonoperative treatment of cervical myelopathy is reserved for patients who cannot tolerate surgery.

images Controversy exists regarding the management of patients with asymptomatic spinal cord compression. In those with severe asymptomatic compression, consideration should be given to prophylactic surgery, particularly if cord signal changes are present, to prevent spinal cord injury with trauma (eg, central cord syndrome) (FIG 2).

images

FIG 2  Sagittal T2-weighted MRI demonstrating spinal cord signal changes.

SURGICAL MANAGEMENT

images The most common surgical options include anterior decompression and fusion (discectomy versus corpectomy, depending on the absence or presence of retrovertebral cord compression, respectively), laminoplasty, and laminectomy with fusion.

images In general, anterior surgery is preferred when cord compression arises from three or fewer disc segments, as the incidence of fusion and graft complications increases exponentially with greater number of segments fused. The presence of kyphosis or significant spondylotic neck pain also favors an anterior approach.

images Conversely, posterior approaches such as laminoplasty are favored when myelopathy arises from three or more motion segments and the cervical alignment is neutral or lordotic, particularly if the patient has minimal to no neck pain.

images For posterior surgery to adequately decompress the cord, however, enough lordosis must be present to allow cord driftback after removal of the posterior tethers (lamina, flavum).

images Combined anterior and posterior surgery should be considered in cases of severe or postlaminectomy kyphosis.

images Multilevel corpectomy as a stand-alone operation is not recommended in patients with significant postlaminectomy kyphosis, as this creates a highly unstable construct that is prone to failure.

Preoperative Planning

images Preoperative CT and MRI scans should be scrutinized to analyze the course of the vertebral arteries and the width of the spinal canal requiring decompression.

images CT scans may provide additional information to MRI scans when it is unclear whether the compressive lesions are bony (OPLL, osteophytes) or soft disc material.

Positioning

images For anterior cervical corpectomy and fusion, patients are positioned as described in Chapter SP-1.

images However, greater caution is necessary in positioning the myelopathic versus radiculopathic patient. In particular, one must ensure that the patient is not excessively extended beyond the tolerance of the compressed cord. The amount of extension tolerated preoperatively should be assessed and not exceeded intraoperatively.

images Gardner-Wells tongs may be used for multilevel corpectomy but are not generally needed for one-level corpectomy.

images Weight, typically 30 to 40 lb, can be added to the tongs after decompression to allow for distraction during graft insertion. Significant distraction on the spine should be avoided until after the cord has been decompressed.

Approach

images The approach is similar to that for anterior cervical discectomy and fusion but generally needs to be more extensile to access multiple levels. (Please see Chap. SP-1 for further details.)

images The surgeon should ensure that wide exposure beyond the medial border of the uncinates is achieved, with appropriate elevation of the longus colli muscles bilaterally, to achieve a stable base for the self-retaining retractors as well as to provide orientation to the uncinates, which remain the critical landmarks for either corpectomy or discectomy surgery.

TECHNIQUES

EVALUATING THE LIMITS FOR THE CORPECTOMY

images  The corpectomy is performed after the initial discectomies above and below the vertebra to be resected. The discectomies are performed from uncinate to uncinate as detailed in Chapter SP-11.

images  The width of the corpectomy required to decompress the cord should be based on preoperative imaging studies (TECH FIG 1).

images

TECH FIG 1  Limits of corpectomy. A. The width of the corpectomy is based on that necessary to decompress the spinal cord and can be estimated on preoperative imaging. B. In general, a corpectomy spanning from the medial border of one uncinate to the other will be sufficient at the vertebral body level. C. At the level of the disc space, a wider decompression may be necessary for satisfactory root decompression (yellow lines).

images Generally, sufficient decompression will occur if the width of the decompression spans from uncinate to uncinate.

images Wider decompressions beyond the medial border to the uncinates are typically performed at the disc level, where a combination of cord and root compression may occur, but are not necessary at the vertebral body level, where only the spinal cord is compressed.

images  Staying within the uncinates will allow for thorough decompression while avoiding vertebral artery injury, unless a vertebral artery anomaly exists. Such anomalies are more likely to occur within the vertebral body rather than the disc spaces, and they should be recognized on preoperative imaging to avoid injury.

CERVICAL CORPECTOMY

images  The edges of the corpectomy are longitudinally delineated with a high-speed burr from uncinate to uncinate to define the safe limits of the decompression.

images  Next, a Leksell rongeur can be used to quickly remove large fragments of vertebral body bone (TECH FIG 2). This bone should be saved for grafting.

images  Once the cancellous bone is removed grossly, fine decompression then proceeds with a high-speed burr.

images  Under direct visualization, a high-speed burr is used to remove bone until a thin shell of posterior cortex remains.

images  Microcurettes and Kerrisons are then used to flake off the remaining bone.

images  Attention should be paid to maintaining the width of the corpectomy as it proceeds posteriorly toward the canal, as the tendency is to cone the decompression narrowly as one proceeds posteriorly.

images Vertebral body bleeding often hinders visualization during bone removal.

images The surgeon should take time to achieve hemostasis using bone wax (gently applied when the remaining vertebra is still thick) or powdered Gelfoam– thrombin (when the remnant vertebral body is very thin).

images Significant dorsal pressure should be avoided during these maneuvers to avoid inadvertently plunging into the spinal canal.

images  Epidural bleeding is best controlled with bipolar cautery as well as Gelfoam–thrombin.

images

TECH FIG 2  Steps in bone removal. A. Leksell rongeur is used to remove large pieces of vertebral body bone after delineating the lateral edges of the corpectomy longitudinally along the medial border of the uncinates with a highspeed burr. B. After removing the bulk of the vertebra, a burr is used to sequentially remove bone in layers until only a thin remnant of bone remains. C. Finally, curettes and Kerrison rongeurs are used to remove the remaining bone. Adequate thinning of all bone to be removed allows the passage of smaller instruments that do not exert pressure on the spinal cord.

REMOVING THE POSTERIOR LONGITUDINAL LIGAMENT

images  If cord compression arises strictly from bony osteophytes or congenital narrowing of the spinal canal, the PLL does not necessarily need to be resected. In general, we favor removing the PLL to confirm adequate decompression.

images  If, however, there is an extruded or sequestered herniated disc behind the vertebral body, or if OPLL is the cause of compression, the PLL should be resected.

images  When resecting the PLL, a small curette is used to probe in between longitudinal fibers of the PLL until it can be passed dorsal to it. Once a plane is created, larger curettes or 2 or 3-mm Kerrisons can be used to complete the resection of the PLL (TECH FIG 3).

images  If severe OPLL is present, the dura may be deficient or absent, and the surgeon should be prepared to perform a dural patch and possibly a subarachnoid lumbar drain.

images The presence of severe OPLL may favor a posterior approach, all other factors being equal, to avoid complications related to dural deficiencies.

images  In severe OPLL, instead of removing the entire OPLL, an alternative technique is to allow it to float anteriorly by releasing its tethers at nonossified portions, then allowing the ossified portion to float anteriorly along with the underlying adherent dura. However, one downside to this approach can be the potential for regrowth of the OPLL.7

images

TECH FIG 3  A curette is used to tease apart the longitudinal fibers and create a plane dorsal to the posterior longitudinal ligament (PLL). Once this plane is identified, a curette or pituitary rongeur is used to elevate the PLL while a small Kerrison removes it. The surgeon must be careful never to exert compression on the cord by passing large instruments.

GRAFTING OPTIONS

images  Autograft, allograft, or cages can be used.

images  Autograft options include structural iliac crest or autologous fibula. Both are excellent graft materials but can be associated with significant donor site morbidity. Because of its shape, iliac crest is generally suitable for oneor sometimes two-segment corpectomy reconstruction. Fibula is favored for two-segment or more corpectomy reconstruction.6

images  Because of donor site morbidity issues, allograft fibula or cages filled with local autograft remain popular choices for corpectomy reconstruction.

images  Local corpectomy bone can be used to provide the biologic stimulus for healing, allowing the allograft to serve both structural and osteoconductive roles. Local bone is packed in and around the allograft (TECH FIG 4).

images

TECH FIG 4  Local morselized autograft is packed around the strut graft and into the cleared-out uncinate regions. An additional benefit of wide discectomy is the ability to fuse the uncinate regions.

ENDPLATE PREPARATION

images  The endplates above and below the corpectomy should be thoroughly decorticated and denuded of all cartilaginous material.

images To prevent excessive subsidence, we prefer not to remove as much endplate when performing corpectomy reconstruction as is done when performing anterior cervical discectomy and fusion.

images  Nevertheless, it is helpful to remove the anterior lip on the caudal surface of the cephalad vertebra to allow for better contact of the graft to the endplate. The anterior lip is flattened to be level with the central concavity of the endplate (TECH FIG 5A).

images  The structural integrity of the endplate is maintained in the central third to allow a stable loading surface for the graft. Preserving the curvature on the posterior third of the endplate protects the graft from kicking posteriorly into the canal.

images  If the posterior lip needs to be removed to decompress the cord, it can be done along the floor of the canal with a Kerrison after the corpectomy is completed.

images  Kickout is most likely to occur at the caudal end of the construct, where the compressive loads on the graft are translated into a shear force due to the relative lordosis of the caudal vertebra. To prevent kickout, the caudal endplate should be prepared parallel to the floor, such that the shear vector is minimized. The tradeoff is that doing so will result in a greater likelihood of subsidence (TECH FIG 5B,C).

images

TECH FIG 5  A. Carpentry of the inferior endplate of the cephalad level: preparing the inferior endplate of the cephalad segment (eg, the inferior endplate of C5 during a C6 corpectomy). Flattening the anterior lip and the anterior third of the endplate allows for proper insertion of a strut graft. They are flattened to be level with the central concavity of the endplate. The central third of the endplate is left as structurally sound as possible to resist excessive subsidence. The posterior third may be left intact to act as a barrier to posterior migration of the graft into the canal. The posterior lip, which is often a source of spondylotic compression, can be removed with a Kerrison after the corpectomy is completed to decompress the floor of the spinal canal. B,C. Carpentry of the superior endplate of the distal level. B. When performing corpectomy reconstructions in which the distal level is lordotic, if the superior endplate of that vertebra is not level with the ground, the graft is likely to kick out anteriorly as the compressive loads on the graft are converted into shear at the graft–endplate interface. C. The solution is to flatten the superior endplate of the caudal vertebra. The graft is now less likely to kick out, but the tradeoff is that it is more likely to piston.

GRAFT SIZING

images  If a total corpectomy is performed, care is taken to find a graft that will fill most of the depth of the vertebral body but will still be small enough to stay well clear of the decompressed cord when recessed by 2 to 3 mm from the front of the vertebral body.

images  A reasonable amount of distraction should be performed after the decompression. This can be done by the application of weights to cervical tongs or, in oneor some two-level situations, by Caspar pin distraction (the Caspar spreader is usually not long enough to span multilevel corpectomies).

images  Care should be taken not to distract the spine until all compressive lesions on the cord have been removed, to avoid tenting the cord over the compressive lesions.

images  In general, the amount of distraction should result in overall vertebral column length that is slightly longer than it was preoperatively. Excessive distraction is more likely to result in subsequent graft pistoning and subsidence, as the spine naturally recoils to its initial state once the patient is upright.

images  The wooden end of a cotton applicator can be whittled away until it just fits into the corpectomy. This can be used as a template for cutting the graft to appropriate length (TECH FIG 6).

images

TECH FIG 6  After applying distraction, a wooden applicator (Q-tip) serves as a useful device for measuring the length of the graft.

GRAFT INSERTION

images  The graft is gently tamped into the distracted corpectomy site (TECH FIG 7).

images  Distraction is then released, and the stability of the graft is tested by gently pulling on the graft with a clamp.

images  Because bony union is desired not only at the ends of the graft but also side to side between the shaft of the strut graft and the remaining vertebral bodies, intimate contact of graft to host is desirable in all regions. Any open spaces can be grafted with the local bone from the corpectomy.

images  If autograft is scarce, it is best to save it for the ends of the allograft strut and fill the middle portion of the marrow cavity with a bone graft substitute.

images  The uncinate regions at each disc level are a good surface for fusion and can be grafted with local bone. The residual disc spaces lateral to the medial border of the uncinates can be packed with local bone to facilitate fusion.

images

TECH FIG 7  The graft is inserted under either tong traction or Caspar pin distraction. The superior end of the graft is inserted first, and then the inferior end is gently tamped into position.

ANTERIOR CERVICAL PLATING

images  Plating is performed as noted during anterior cervical discectomy and fusion.

images  Standalone plated multilevel corpectomies (three or more disc levels) have been reported to be associated with high failure rates. Consideration should be given in such cases to supplemental posterior fixation.5

images

POSTOPERATIVE CARE

images If retraction time on the soft tissues of the neck has been more than 3 hours, a cuff-leak test should be considered before extubation to rule out the presence of edema that may lead to airway obstruction upon extubation.

images This is performed by deflating the endotracheal tube while obstructing the lumen of the tube, and then determining if there is a leak around the deflated tube. If there is no leak, consideration should be given to keeping the patient intubated with the head elevated until a leak is detected. Steroids can also be given to decrease airway edema.

images The head of the bed should be elevated above 45 degrees in all patients postoperatively to diminish edema.

images Most patients are placed in a rigid cervical orthosis for 6 weeks.

images If a drain is placed, it should be followed closely and removed once the output is below an acceptable limit (ie, 30 cc per shift), typically on postoperative day 1.

OUTCOMES

images Although the primary goal of surgery in myelopathy is to prevent progression, most patients actually note neurologic improvement after successful corpectomy and fusion.2

COMPLICATIONS

images Complications encountered during the anterior approach to the cervical spine are similar to those discussed in Chapter 11. The incidence of airway obstruction may be higher due to soft tissue edema from longer surgical retraction times.

images Neurologic injury is rare (1% to 2%).

images

FIG 3  Hybrid constructs. This patient had retrovertebral cord compression behind C6 and disc-based compression at C4–5. Rather than doing a two-level corpectomy of both C4 and C5, a discectomy–corpectomy construct allows for a shorter strut graft and intermediate points of screw fixation into C5.

images Most complications associated with cervical corpectomies are related to graft and plate problems.3

images Dislodgement and pistoning of the graft into the adjacent vertebral bodies with loss of lordosis are potential postoperative complications.8

images The risk increases as the number of levels corpectomized and the length of the strut graft increases. The rate of graft dislodgement ranged from 7% to 50% despite plating in one early series of multilevel corpectomy.

images To avoid such complications, hybrid corpectomy constructs can be used instead if the pattern of neural compression allows.

images Hybrid constructs combine corpectomies at levels with retrovertebral compression along with discectomies at levels demonstrating compression only at the level of the disc space (FIG 3).

images For a three-disc–level problem, a single-level corpectomy can be combined with a single-level anterior cervical discectomy and fusion.

images For a four-disc–level problem, two single-level corpectomies can be performed with an intervening intact vertebra, or a single-level corpectomy with two single-level anterior cervical discectomies and fusions.

images Hybrid constructs avoid the negative biomechanical issues associated with long strut grafts and provide more points of segmental screw fixation, leading to constructs that are more stable and less likely to fail.

images If a posterior approach can be used instead in the patient with multilevel myelopathy, we prefer to do so. Ideal candidates for posterior surgery such as laminoplasty are those with multilevel cervical myelopathy, preserved lordosis, and little to no spondylotic neck pain. In patients like these, fusion and its attendant complications can be avoided altogether with laminoplasty.

images Exacerbation of axial neck pain can occur after laminoplasty in those who have significant complaints preoperatively, although it rarely becomes of significance in those who have little to no axial pain preoperatively. Also, adequate decompression may not occur after laminoplasty in those with kyphosis, as cord driftback away from anterior compressive lesions is unreliable in this setting.

REFERENCES

1. Clarke E, Robinson PK. Cervical myelopathy: a complication of cervical spondylosis. Brain 1956;79:483–510.

2. Ikenaga M, Shikata J, Tanaka C. Long-term results over 10 years of anterior corpectomy and fusion for multilevel cervical myelopathy. Spine 2006;31:1568–1574.

3. Riew KD, Sethi NS, Devney J, et al. Complications of buttress plate stabilization of cervical corpectomy. Spine 1999;24:2404–2410.

4. Tsuyama N. Ossification of the posterior longitudinal ligament of the spine. Clin Orthop Relat Res 1984;184:71–84.

5. Vaccaro AR, Falatyn SP, Scuderi GJ, et al. Early failure of long segment anterior cervical plate fixation. J Spinal Disord 1998;11:410–415.

6. Whitecloud TS, LaRocca H. Fibular strut graft in reconstructive surgery of the cervical spine. Spine 1976;1:33–43.

7. Yamaura I, Kurosa Y, Matuoka T, et al. Anterior floating method for cervical myelopathy caused by ossification of the posterior longitudinal ligament. Clin Orthop Relat Res 1999;359:27–34.

8. Yonenobu K, Hosono N, Iwasaki M, et al. Laminoplasty versus subtotal corpectomy: a comparative study of results in multisegmental cervical spondylotic myelopathy. Spine 1992;17:1281–1284.



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