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The surgical management of lumbar spinal stenosis and degenerative spondylolisthesis is critically shaped by whether a spinal arthrodesis (instrumented or noninstrumented) is performed along with the decompressive procedure. Although the conditions under which these choices are made have not been fully and absolutely defined, the literature provides positive guidelines once the disorders are definitively diagnosed. Differentiation of these conditions is therefore a first step toward optimal management. Complaints from patients with lumbar stenosis and degenerative spondylolisthesis include back and leg pain; neurologic symptoms such as numbness, tingling, and dysesthesia; and subjective weakness often exacerbated by either prolonged standing or walking. Fixed neurologic deficits may be absent or subtle in the form of reflex changes and/or mild bowel or bladder difficulties. Significant fixed motor paralysis and/or significant bowel or bladder symptoms are less common and may be seen in neglected cases or, even less commonly, in acute presentations. However, the patient’s symptoms do not definitively differentiate pure lumbar stenosis from degenerative spondylolisthesis.
Common nonoperative measures to treat lumbar stenosis or spondylolisthesis include active physical therapy, pharmacologic management, and injection techniques. Failure of an adequate and coordinated program of conservative care is an indication to consider operative treatment. Because rapid neurologic deterioration is relatively rare, the vast majority of surgery for lumbar stenosis and degenerative spondylolisthesis is elective.
Decision making in the treatment of lumbar stenosis involves differentiating between the two entities: stenosis or spondylolisthesis as the cause of the patient’s symptoms. Pure lumbar stenosis is commonly found in combination with significant osteoarthritic changes, often with large osteophyte formations. Pure degenerative spondylolisthesis is commonly manifested as a grade I spondylolisthesis of L4 on L5, and it is more common in female than male patients.
There is an overlap of radiologic findings between these two entities that requires further categorization. The differentiation of pure lumbar stenosis from degenerative spondylolisthesis begins with plain radiographs and dynamic lateral flexion and extension x-rays. The patient’s symptoms should correlate with the pathologic anatomy noted on all preoperative imaging studies. Greater than 4 mm of anterior translation of the superior vertebral body on the inferior body or 10 degrees of angulation of motion compared to adjacent segment constitutes degenerative spondylolisthesis. Standing lateral flexion and extension x-rays can provide additional evidence of dynamic instability to supine lateral flexion and extension views. Each level of the lumbar spine can be assessed preoperatively for individual stability based on disc height, angular motion of the end plates, translation as measured on plain radiographs, or fixed or mobile translation as evaluated on dynamic radiographs. Unfortunately, the preoperative assessment of stability loses significance after destabilizing decompressive procedures are performed.
Increasingly, the lumbar spine is iatrogenically destabilized by partial facetectomy, total facetectomy, and violation and destruction of the pars interarticularis. Guidelines based on biomechanical studies have suggested that it is safe to remove unilaterally or bilaterally up to 50% of either the medial or lateral facets without destabilizing the motion segment. This guideline might not apply in the clinical setting of a motion segment with greater than 4 mm of fixed translation, even if the disc space is bone on bone with no angular or translational movement demonstrated on preoperative dynamic radiographs. Similarly, postoperative stability cannot be guaranteed in lumbar stenosis even if, unilaterally, 100% of the medial facet is resected while 100% of the lateral facet is left intact (equal to a 50% facet joint resection). It is important to understand that the 50% rule means leaving 50% of a facet with functional medial and lateral components.
Clearly, violation of the pars interarticularis during a decompressive procedure creates an immediate predilection for a painful postoperative instability. Iatrogenic violation of the pars not only produces increased instability but also decreases the probability of a successful fusion, even with the addition of instrumentation. It is possible to leave the pars intact after a decompression only to fatigue and fracture later owing to long-term stress and increasing osteoporosis.
The purpose of any surgical intervention is to decrease pain, improve function, and prevent neurologic deterioration. The goal of surgical decompression is to decompress all the neural elements that are producing the patient’s symptoms. Degenerative changes can span multiple vertebral levels on imaging studies, but not all levels may be involved in producing the patient’s stenotic symptoms at the time of examination. Neural compression is documented well by magnetic resonance imaging (MRI). Increased sophistication in the technology and interpretation of MRI scans, with or without supplemental computed tomography (CT) images, has decreased the “mandatory” use of CT-myelography for all surgical patients. Some radiologic facilities supplement MRIs with selected CT cuts through the spine areas where maximal compression has occurred. A CT image better defines the bony architecture of the spinal column, whereas an MRI scan better depicts the soft neural structures. The CT scan also provides information on the extent of the neural compression due to bone involvement. Neural compression is usually due to a reduction of the spinal canal from posterior protrusion of the disc material, hypertrophy of both the facets and ligamentum flavum, and the listhesis.
Simple laminectomy alone is the standard surgical treatment for lumbar spinal stenosis that is not associated with spondylolisthesis or degenerative scoliosis. The goal of decompression is to relieve the thecal sac and nerve root from any local impingements causing pressure or irritation: centrally from the spinal canal, through the lateral recess, and into the neural foramen. When fusion is not performed, there is concern about the amount of facet removal. However, care must be taken to avoid destroying the pars interarticularis, which will unnecessarily destabilize the spine, potentially diminishing the fusion rate. If more than 50% of the facet joint is removed, postoperative instability may occur. In addition, excessive removal or thinning of the pars interarticularis can lead to postoperative fracture or instability. If intraoperative instability is suspected based on the degree of decompression performed, then arthrodesis is recommended in addition to decompression.
The lamina, hypertrophic ligamentum flavum, and osteophytic areas of facet joints can all contribute to the stenosis and therefore require removal. The excess ligamentum flavum should be removed prior to or as a part of the facetectomy. Part of the facet joint may be removed by means of undercutting the medial aspects of both facets. Once again, fusion must be considered if greater than 50% of either facet is removed. Decompression is often performed in a caudal to cranial direction, usually to the level of the pedicle of the vertebra below the involved level. This is accomplished in three steps: First, the central canal is decompressed using a high-speed bur and a Kerrison rongeur. Second, both lateral recesses are decompressed by partially removing the medial aspect of each inferior facet, with subsequent undercutting of the respective superior facets. Finally, a fine instrument, such as a blunt dental tool or a Frazer dural angled elevator, is used to assess the degree of foraminal stenosis as well as the adequacy of foraminal decompression. The final foraminal decompression is performed using a fine Kerrison rongeur placed just dorsal to the nerve root. The neural foramen is adequately decompressed when the nerve root can be gently retracted about 1 cm medially. Visualization of the pars interarticularis must be maintained to avoid excessive bone removal ( Fig. 149.1 ). Constant vigilance is required during this portion of the procedure.
A limited laminectomy has also been described for treating spinal stenosis. In this procedure, the central portion of the neural arch is preserved. Thus, the interspinous and supraspinous ligaments remain intact, minimizing spinal instability. Hemilaminectomy is indicated for patients with unilateral stenosis and unilateral symptoms. However, this procedure potentially makes it difficult to decompress the contralateral side or to perform adequate decompression of the ipsilateral foramen. This is due, in part, to the difficulty in angling instruments laterally to enter the foramen in the presence of an intact spinous process and midline ligaments. An alternative to limited laminectomy is a hemilaminotomy procedure, where two hemilaminotomies are performed on the adjacent hemilaminae. Partial facet excision is then performed for greater lateral decompression, as described for hemilaminectomy.
The procedure is started in identical fashion to a laminectomy; however, care must be taken not to violate the spinous process and interspinous and supraspinous ligaments. Laminotomy of the inferior lamina is performed laterally from the midline to the base of the inferior facet. To gain access to the medial aspect of the superior facet, a partial facetectomy of the inferior facet is performed medially. This can be done using a high-speed bur. The superior facet is then undercut with the aid of a Kerrison rongeur. The neural foramen is subsequently checked to determine if the nerve root has been adequately decompressed. Some researchers advocate performing a contralateral nerve root decompression through a unilateral hemilaminotomy, facilitated by tilting the table toward the surgeon and using a microscope. However, this approach increases the risk for creating a dural tear owing to working through a small access portal. If a dural tear does occur in this situation, a full bilateral laminectomy is needed for further exposure and subsequent repair of the dural tear.
Another published method is a lumbar laminoplasty, a treatment used in active manual workers. It is a procedure similar to cervical laminoplasty. Affected spinous processes are removed at the base, and bilateral unicortical grooves are made at the junction of the lamina and facets. The laminae are then split in the midline and the canal is opened. Spinous process or bone allograft is placed between the open laminae and held secure with suture or steel wire through previously made holes in the laminae and grafts. A body cast is mandatory postoperatively for a minimum of 2 weeks to avoid stress on the construct during ambulation. This procedure has very limited clinical indications.
Discectomy is generally not required in the treatment of lumbar spinal stenosis. True herniations are uncommon. However, the surgeon should assess each case for the possibility of a concomitant disc herniation or hard ridge that might compress the root. In the presence of a markedly bulging disc or in the case of a true soft disc herniation that is contributing to significant nerve root compression, a discectomy may be needed. This being said, a discectomy can also cause subsequent spinal instability, because both anterior and posterior elements are sacrificed. In this circumstance, some surgeons recommend arthrodesis at the time of surgery. Spinal stability should be maintained during decompression by preserving both the pars interarticularis and the facet joints. However, in many cases, much of the facet joint might need to be removed for adequate decompression of the involved nerve root.
Surgeons are often faced with the philosophical question of whether to decompress stenotic levels that are not symptomatic. It is difficult to determine whether a level is symptomatic, especially adjacent levels with mild to moderate stenosis. In general, if a given stenotic area is not believed to be contributing to a patient’s symptoms, decompression of that particular level is not considered mandatory. Certain patients present with a clear monoradiculopathy with multilevel stenosis. An isolated, single unilateral decompression can sometimes be performed. Some patients present with more complex symptomatology. A preoperative selective nerve root block can assist in confirming the symptomatic level or side.
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