Lumbar Foraminal Stenosis Classification That Guides Surgical Treatment

DISCUSSION

There are many foraminal stenosis classification systems in the literature. However, all of the classification systems have focused on radiological and anatomical aspects of foraminal stenosis. Therefore, there is no foraminal stenosis classification that guides the surgeon for appropriate surgery. To the best of our knowledge, our study presents the first classification system that describes the treatment algorithms for different stenosis types. Besides establishing the treatment algorithm, we defined terms of “stable” and “unstable” for guiding the treatment choice.

Except for foraminal soft discs and synovial cysts, it can be easily concluded that nerve root compression due to foraminal stenosis is an advanced age disease. Unless the movement of the functional segment is lost, painful root irritation is secondary to foraminal mobility. The pain is generally decreased by altering the patient’s body position. However, as the motion in the functional segment diminishes, root irritation becomes more prominent both clinically and radiologically. In these patients, the height of the foramen decreases as the disc height decreases and the nerve root is compressed further in the foramen. This situation is seen mostly in types I and II of stable foraminal stenosis. It should be noted that for patients with both foraminal stenosis and spinal canal stenosis who are undergoing treatment, proper decompression of the foraminal narrowing is overlooked more often than we think.

Although there are many anatomical and radiological studies, written experiences, and different treatment methods available in the literature, there is no certain algorithm for treatment selection. Foraminal stenosis grading based on magnetic resonance imaging findings has been published in the literature; however, none of the existing literature presents an algorithm for treatment selection based on grading.7,8 The structure causing foraminal stenosis must be carefully assessed, and a plan for treatment must be made accordingly. For example, in stable type I foraminal stenosis, the nerve root is compressed between the 2 pedicles, and in type II, the nerve root is compressed between the upper pedicle and posterior aspect of the underlying vertebral body; therefore, the caudal part of the compressing factor is completely different. It has long been established that the nerve root can be decompressed by performing classical unroofing (Gill’s procedure), which is still a valid procedure. Even if the foramina are unroofed, it is doubtful that the patient will benefit from this procedure due to the constant compression between the upper and lower structures caused by the axial load.5,9 It is also important to add that unroofing in certain foraminal stenosis types will not provide pain relief. In these cases, it is necessary to perform a complete or partial pediculectomy to achieve an enlarged foramen. If the pedicle is completely removed, including facet joints, the lower and upper foramen join together to form a large foramen in which 2 nerve roots easily exit. We could not find a detailed study in the literature other than our previous publication.10

In stable foraminal compression, the clinical presentation is continuous and evident and can almost always be treated with minimally invasive methods with no further instrumentation required. However, problems arise in unstable foraminal stenosis. Facet joints play an important role in the stabilization of the lumbar functional segment. Especially in degenerative cases, removal of a facet joint greatly affects the motion segment that is damaged due to the process of aging. In these cases, the neutral zone expands further. In the unstable subgroup types I, III, and IV, if there is no significant evidence of instability, it may be possible to intervene in the pathology without disrupting the anatomy too much. For example, in cases with foraminal soft disc herniation and synovial cysts, microsurgery and endoscopic surgery can be used to remove the pathology without disrupting the anatomy.11–13 Despite the possibility of recurrence, recurrence ratios are not very high; therefore, surgery can be performed without using instrumentation as the first choice. On the other hand, if the hypertrophic facet is the cause of the compression over the nerve root, it is necessary to remove the facet joints. Generally, these cases require stabilization because of the high instability risk following surgical intervention.14,15 Another possible requirement for adding stabilization is the severity of disc degeneration in unstable disc herniation. Severely degenerated and less mobile dysfunctional segments do not require instrumentation to maintain stabilization. It should be noted that a mobile functional segment becomes more unstable after facet resection; therefore, regardless of dynamic or rigid segments, the concept of stabilization should be considered more seriously.

Removal of facet joints, especially in unstable type II patients, leads to increased instability and usually requires instrumentation. These patients constitute a younger age group and mostly have no evident balance problems. The classical approach is to remove the disc, apply fusion with a cage to increase or maintain the disc height, and stabilize the disc with rigid transpedicular instrumentation.16,17 This approach is currently accepted as the gold standard. However, recently, transpedicular dynamic systems (Dynesys) have been proposed by many spinal surgeons in many countries outside the United States.18–20 These systems are reported to be suitable for every age group and provide a softer stabilization. It is a minor surgery compared with fusion with a lower postoperative hospitalization period. It is also a more cost-effective surgery when compared with fusion and rigid instrumentation. Especially for elderly patients with comorbidities, there is no major complication reported at the single level.21,22 In appropriate cases, after removal of the facet joint, a unilateral dynamic system can act as an artificial facet joint.23 Which type of stabilization will be selected for the treatment entirely depends on the choice of the surgeon.

No patients experienced postoperative radiculopathy complications or revision surgery and only 1 patient needed surgery for infection. This was another finding that supports the reliability and proper classification of the foraminal stenosis types before surgery.

The most important limitations of the study are the retrospective nature, the inclusion of only patients with single-level lumbar foraminal stenosis, the short follow-up period, and the relatively small number of patients. Furthermore, this classification may also need to be combined with the evaluation of prognostic factors from other aspects for the development of foraminal stenosis. In addition, the treatment options may be modified owing to the availability of different treatment options, such as type of dynamic stabilization, depending on centers’ availability and experience.