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Pipsa Ylanko, AOSpine Global Education Manager

General Editor: Luiz Vialle

Authors: Emiliano Vialle

Scheuermann Kyphosis Posterior instrumentation without release

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Glossary

1 Introduction top

Preoperative planning

  • Review patient's clinical data and blood exams.
  • Estimate the surgical blood loss and determine the need for blood transfusion or the use of cell saver.
  • Estimate the correction to be around 40-50° or 50% of the curve in deformities above 90°
  • Check X-rays for possible pedicle abnormalities and draw the surgical strategy on a template

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Selection of upper instrumented level

There are currently two commonly used options for the upper instrumented level.

  • End vertebra of the deformity
  • The first lordotic vertebra cranial to the deformity

Using the first lordotic vertebra will reduce the risk of getting junctional kyphosis. However, insertion of pedicle screws at the cervico thoracic junction is technically demanding.


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In the case illustrated the end vertebra of the kyphosis is T3, while the optimal fixation point is at T1, the first lordotic vertebra cranial to the deformity.


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Selection of lower instrumented level

The distal point of fixation has traditionally been the vertebra below the first lordotic disc in the lumbar area, usually L1 or L2


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Another option is to use the most proximal vertebra touched by a line drawn vertically from the posterior superior corner of the sacrum on the lateral radiographs.


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Release

Curves more than 90° or smaller curves which do not correct more than 50% in hyperextension films will require a release. This may be an anterior release, a posterior osteotomy, or a combination of both.

Most cases can be managed with a posterior osteotomy and pedicle screw instrumentation. The main indications for anterior release is advanced disk degeneration and anterior osteophytes.

2 Pedicle screw insertion top

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Bilateral pedicle screws are inserted at the three cranial and caudal vertebrae. This is performed prior to any posterior osteotomies to reduce the risk of accidental injury to the spinal cord during screw insertion.

On the remaining vertebrae, unilateral pedicle screws may be used switching sides at each level.

Alternatively either laminar or transverse hooks can be inserted at the upper end of the construct.

At the most caudal levels reduction screws may be inserted to facilitate rod insertion and deformity correction.

3 Reduction of the deformity top

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The rod curvature should approximate the planned correction (to achieve 40-50° of kyphosis).

Overcorrection will increase the risk of decompensation either proximal or caudal.


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After rod insertion is completed, gradual compression between the screws towards the apex of the deformity will provide further correction.

The goal of compression is to close the osteotomy sites and to reduce the posterior length of the spine.

4 Spinal fusion top

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The laminae and the transverse processes are decorticated with an osteotome.

Care should be taken to always point the osteotome away from the spinal canal.

Alternatively, the decortication may be performed with a powered burr.


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Bone graft (allograft, autograft, or bone substitutes) is copiously placed over the entire decorticated area.

Optional: Vancomicin powder (1gram) is distributed over the surgically exposed area.


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Transverse connectors may be inserted one at each end of the construct at the surgeons discretion.

5 Intraoperative imaging top

Prior to wound closure intraoperative imaging should check:

  • Fusion levels
  • Screw position
  • Overall coronal and sagittal correction and alignment

v1.0 2016-12-01