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Percutaneous Vertebroplasty: Complication Avoidance and Technique Optimization

John M. Mathis
American Journal of Neuroradiology September 2003, 24 (8) 1697-1706;
John M. Mathis
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Figures

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  • Fig 1.
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    Fig 1.

    A, Lateral radiograph during vertebroplasty showing cement extending to the posterior vertebral margin (black arrow).

    B, Post-PV CT scan demonstrates a small leak into the epidural venous plexus (black arrow). This leak was asymptomatic.

  • Fig 2.
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    Fig 2.

    Portion of a chest radiograph after PV showing small radiopaque cement emboli (white arrows) in peripheral pulmonary vessels. This patient had no pulmonary symptoms.

  • Fig 3.
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    Fig 3.

    A, Lateral radiograph of the spine showing a moderately compressed vertebra (black arrow).

    B, Postvertebroplasty, there are large leaks of cement (black arrows) into the adjacent disk spaces.

    C, Six months later, the patient returned with a second fracture (white arrow). This fracture is not an adjacent level. Adjacent levels did not fracture despite the large disk leaks.

  • Fig 4.
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    Fig 4.

    A, Postvertebroplasty CT scan demonstrates large cement leaks into the spinal canal, neural foramin (black arrow), and perispinus region. This patient had paresis and radiculopathy.

    B, Postkyphoplasty CT scan shows large leaks into the spinal canal (black arrows), which created paraplegia.

  • Fig 5.
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    Fig 5.

    A, Postkyphoplasty CT scan. The lateral wall was disrupted by the balloon inflation, and a large cement leak into the mediastinum resulted (white arrow). For weeks following the procedure, this patient had severe, persistent pain.

    B, Lateral radiography after vertebroplasty with a slow-set PMMA. The needles were withdrawn and the cement was still liquid enough to flow into the needle tracts and into the soft tissue (white arrows). This created local discomfort to pressure.

  • Fig 6.
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    Fig 6.

    Radiograph showing appropriately opacified cement (white arrow) that can be easily seen even in very small quantities.

  • Fig 7.
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    Fig 7.

    Drawing depicting the needle entry site into the bone (black arrow) for a transpedicular approach. Following removal of the needle, local pressure allows one to easily achieve hemostasis in this situation.

  • Fig 8.
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    Fig 8.

    A, T2 sagittal MR imaging demonstrating a high signal intensity collection (black arrow) below the superior endplate of this compressed vertebra. This represents a fluid-filled vertebral cleft.

    B, Lateral radiograph showing an air-filled cleft (black arrow) in a compression fracture.

  • Fig 9.
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    Fig 9.

    A, Lateral radiograph showing early cement filling of a cleft below the superior endplate (black arrow) of a compressed vertebra. Note that the needle tips are separated from the cleft and the cleft is filling preferentially.

    B, Anterioposterior view of the same vertebra at completion of the vertebroplasty. The cleft (black arrow) has been completely filled with cement. Relatively little cement has been deposited into the rest of the vertebra. This typically results in good pain relief without the need for repeat filling of the noncleft portion of the vertebra.

  • Fig 10.
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    Fig 10.

    A, Lateral radiograph demonstrating marked compression of a lower thoracic vertebra. Note the 18° of kyphosis before vertebroplasty.

    B, With mild extension of the body, some height was restored to vertebra during vertebroplasty. This postvertebroplasty image shows that the kyphosis has been reduced to 9°.

  • Fig 11.
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    Fig 11.

    A, Lateral radiograph during vertebroplasty of a compression fracture due to breast carcinoma. Note that the thecal sac was first opacified with myelographic contrast. This allows one to watch for deformation of the thecal sac that would indicate tumor displacement during cement introduction.

    B, With the thecal sac opacified, axial CT scans provide the most sensitive method to monitor PV for thecal sac compression created by tumor displaced during cement injection.

  • Fig 12.
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    Fig 12.

    A, Sagittal T1 MR imaging (midline) showing complete central compression of T11.

    B, Sagittal T1 MR imaging (lateral vertebral margin) reveals considerable residual marrow space that could be filled with cement during vertebroplasty.

  • Fig 13.
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    Fig 13.

    A, Lateral radiograph of an extremely collapsed lower thoracic vertebra. Superior and inferior endplates are identified (black arrows). There is a small air-filled cleft; 13-gauge needles are being introduced via transpedicular route.

    B, A lateral image showing one 13-gauge needle in good position before vertebroplasty.

    C, Final image after bipedicular vertebroplasty. Good filling of the vertebra was achieved despite the severe collapse. The patient had a good pain response to the procedure.

  • Fig 14.
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    Fig 14.

    A, Lateral radiograph following a two-level vertebroplasty.

    B, Follow-up lateral radiograph after refracture of both previously treated levels. Both levels show height loss compared with image shown in panel A.

    C, With the patient placed in mild extension on the angiographic table, the two vertebrae show height restoration and the development of internal clefts (white arrows).

    D, The final image following vertebroplasty retreatment. The clefts shown in panel C have been filled with cement. The procedure eliminated the patient’s pain, and this fixation has been durable for more than 2 years.

  • Fig 15.
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    Fig 15.

    Anterioposterior radiograph showing six vertebrae treated with vertebroplasty. Ultimately, 10 levels were treated in this patient.

Tables

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    TABLE 1:

    Vertebroplasty complications

    Cement leaks:
     Should be of no consequence if small
     Large leaks may cause local or radicular pain, neurologic damage, pulmonary embolus, or death
    Inaccurate needle placement:
     Injury to nerve root or spinal cord
     Injury to adjacent organs (eg lungs)
    Pain exacerabation:
     May occur due to substantial leaks into adjacent tissue or veins
     May occur without leak (transient pain flair)
    Infection (rare)
    Bleeding (rare without coagulopathy or anticoagulation)
    • View popup
    TABLE 2:

    “No-Sting” Anesthetic Mixture

    SolutionComposition
    Solution 1: 0.5% lidocaineaLidocaine 4% (4 cc); lactated ringer’s (24 cc); bicarbonate (2 cc); epinephrine (0)
    Solution 2: 0.5% lidocaine with epinephrineaLidocaine 4% (4 cc); lactated ringer’s (24 cc); bicarbonate (2 cc); epinephrine (0.15 cc of 1:1,000)
    • a This solution is preservative free and should be discarded at the end of each workday.

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American Journal of Neuroradiology: 24 (8)
American Journal of Neuroradiology
Vol. 24, Issue 8
1 Sep 2003
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John M. Mathis
Percutaneous Vertebroplasty: Complication Avoidance and Technique Optimization
American Journal of Neuroradiology Sep 2003, 24 (8) 1697-1706;

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Percutaneous Vertebroplasty: Complication Avoidance and Technique Optimization
John M. Mathis
American Journal of Neuroradiology Sep 2003, 24 (8) 1697-1706;
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