Based on CT and MRI imaging, a plan should be prepared to determine:
The size and optimal location of implants used
Whether spinal cord decompression is necessary and if so, the amount of tissue to remove in order to achieve sufficient spinal cord decompression
Every case will be unique, and we will here illustrate just one example.
The cervico-thoracic junction
The cervico-thoracic junction has a specific biomechanical behavior. This is due to the sudden change from the extremely flexible cervical spine, to the more rigid thoracic spine.
The thoracic spine has a shorter elastic zone due to:
the rigid rib cage.
the coronal orientation of the facet joints.
the overlapping of the spinous processes.
Biomechanically the cervico thoracic junction is vulnerable to kyphosis and shear forces. Usually a long construct (2-3 levels above and 2-3 below the tumor) is necessary to achieve adequate stability. That is why the anterior alone constructs at this level are not recommended because of high-failure risks.
The anterior approaches might be difficult because of complex anatomy involving numerous essential anatomical structures at this level.
Use of dexamethasone
Administration of dexamethasone (10 mg bolus, 4 mg every 6 hours) is recommended as soon as ESCC causing neurologic deficit is diagnosed. Dexamethasone should be stopped or tapered as soon as spinal cord decompression is completed.
Embolization procedures are recommended to reduce operative blood loss in hyper vascular tumors, especially for larger resections.
If the pedicles are too small (extremely rare for the T1 level), an outside-inside technique or laminar screws can be used as an alternative at the level of T1-T2.
4. Rod insertion
Double diameter tapered rods can be used if available. In this case no rod connectors are needed.
This is the preferred option as it is easier to install and reduces operating time compared to other constructs. Alternatively, stabilization of the cervicothoracic junction can be performed with a cervical system provided 4.0mm rods and pedicle screws are available.
Rod contouring should mainly follow the curvature of the spine. Reducing preexisting deformities is typically not necessary and may lead to screw pull-out.
The rod is inserted into the screw heads and the screw heads are tightened with the inner nuts.
If posterior decompression is performed, the insertion of only one rod can facilitate access to the spinal canal. To illustrate this procedure, we will show the decompression with only the first rod in place.
Live expectancy and performance status should be used to determine whether bone grafting is indicated.
For patients with good prognosis and a long life-expectancy, posterior fusion may optionally be performed using allograft and/or local autograft.
If the surgeon plans for a fusion, the facet capsule is excised and the joint cartilage surfaces are denuded/curetted.
Pieces of bone graft (autograft, allograft) are inserted into the decorticated facet joint for fusion.
6. Postoperative imaging
Postoperative AP views should be obtained. As lateral views are not available in this area, a CT scan should be obtained as soon as possible after surgery to confirm the placement of the instrumentation.
Patients are made to sit up in the bed on the first day after surgery. Bracing is optional but preferably omitted for patient comfort. Patients with intact neurological status are made to stand and walk on the first day after surgery.
Patients can be discharged when medically stable or sent to a rehabilitation center if further care is necessary.
During admission adequate caloric intake of a high-quality diet should be monitored.
Patients are generally followed with periodical x-rays and (optionally) MR imaging at 6 weeks, 3 months, 6 months, and 1 year to monitor for tumor recurrence and hardware failure.
Postoperative radiation is required to avoid tumor recurrence. SBRT is usually initiated within two weeks following surgery. Conventional radiotherapy is usually initiated 2-4 weeks after surgery to reduce the risk of wound healing disturbances.
The radiation modality is selected based on tumor histology and history of prior radiation.