The classic teaching of causation for spondylolysis has been that an individual is born with a weakness in the pars interarticularis, and at approximately age 6, a fatigue injury occurs that breaks the pars (7). Later, in high school, with the weightlifting and contact stresses of football or the extension stresses of gymnastics or wrestling, the latent fracture is irritated and becomes symptomatic.

Another group of teenagers exists who present with an acute lesion. They have no history of injury, and they suffer a significant hyperextension injury or compressive force to their lumbar spine, which is followed by the immediate and sudden onset of very severe low back pain. Radiographs reveal a fresh fracture, and these patients have a very hot bone scan (Fig. 6-1) (10). These patients are in the minority and represent a special treatment situation.

Finally, remember that 5% of the general population walks around with a spondylolysis that is completely asymptomatic (10). Spondylolysis may be unilateral in up to one third of these patients.

A wide spectrum of presentations exists in these young patients, ranging from an acute disabling episode of back pain to mild low back discomfort when the patient engages in certain activities. The back pain may be dominant to one side, but more often is across the lumbosacral junction. Radiating leg pain is rare in spondylolysis, but hamstring tightness on straight leg raising testing is common. Neurologic symptoms and signs are absent.

The radiographic findings have no set pattern. Although most teenagers will have a defect that is seen on oblique radiographs (Fig. 6-2), enough negative oblique radiographs occur (Fig. 6-3) to require additional radiologic investigation in a young patient with unexplained mechanical back pain.

Additional investigative steps include a SPECT scan (Fig. 6-4) and a CT scan (Fig. 6-5). Experience has shown us that there is no pattern to the findings in these three tests (oblique lumbar radiographs, SPECT scan, and CT scan). You can almost pick whichever combination you wish: for example, positive oblique radiographs/negative SPECT and CT; negative oblique radiographs and SPECT/positive CT; positive oblique radiographs, SPECT, CT; and so on. In addition, the CT scan findings are by no means uniform (Fig. 6-6).

The majority of spondylolytic lesions occur at L5, but a few will be present at higher lumbar levels.

After many years of programmed treatment (e.g., a hot bone scan means a fresh fracture that must be immobilized), we have reduced our advice to two rules for two different groups of patients:

Unfortunately, many young persons fall between these two groups and require some form of activity restriction, therapeutic exercise, and bracing. The real problem comes when trying to determine the duration of treatment. Remember, “my son is the best linebacker in his high school’s history,” which is a statement usually associated with an important game in the near future at which all the college scouts will be in attendance! In this pressure situation of having to treat the patient/parent team, do what is best for the patient. If the patient is asymptomatic, let them play regardless of the investigation results. If the patient is symptomatic, restrict activities (regardless of the investigation results).

On follow-up, plain radiograph, and CT scan, we have seen a minority of these lesions heal despite the patient becoming asymptomatic (Fig. 6-8). We simply follow up these patients every 6 months to a year with a standing lateral lumbar spine radiograph. If they start to develop a slip (spondylolisthesis), we become more aggressive with treatment intervention.

Before describing the various types of spondylolisthesis, it is best to understand the terms used to measure the extent of the vertebral body slip.

The classic measurement of the slip degree has been that of Myerding (4), an obstetrician who described four degrees of slip (Fig. 6-10) (Grade 1 = 25%, Grade 2 = 25% to 50%, Grade 3 = 50% to 75%, and Grade 4 = 75% to 100% slip). A complete dislocation of L5 on S1 (Fig. 6-25) was called a spondyloptosis.

Wiltse and Winter (8) proposed a more sophisticated group of measurements (Fig. 6-11). The reason for this was to separate the tangential movement in the low-grade slips (Grades I and II) from the angular/tangential slips that occurred in the higher levels of slip. In fact, this more complete classification has served to point out that the low-grade slips behave like degenerative disc disease, and the high-grade slips are more like a spinal deformity that requires a whole new set of management principles. This distinction is covered in the following sections.

Congenital spondylolisthesis with forward displacement of a vertebral body at birth is a clinical curiosity. The spinal defect is usually only one of multiple congenital anomalies, and the clinical problem presented is not the management of the spondylolisthesis but the management of the associated congenital scoliosis.

In a true dysplastic spondylolisthesis, the lesion may be either dysplasia of the upper sacrum, specifically in the facet joints (Fig. 6-12), or an attenuation of the pars interarticularis that gets pulled out and thinned as though it were made of a malleable plastic (Fig. 6-13). As the slip increases, and as the pars interarticularis becomes increasingly stretched, it may eventually break, but this break is secondary to the slip and is not the cause of the slip. This concept represents a slight deviation from the Wiltse-Newman-Macnab classification (6), the reason for which is explained in the

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