Safety and efficacy of pedicle screw placement using intraoperative computed tomography: consecutive series of 1148 pedicle screws

Clinical article

Mohamad BydonDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Risheng XuDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland
Medical Scientist Training Program, Johns Hopkins University School of Medicine; and

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Anubhav G. AminDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Mohamed MackiDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Paul KaloostianDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Daniel M. SciubbaDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Jean-Paul WolinskyDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Ali BydonDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Ziya L. GokaslanDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Timothy F. WithamDepartment of Neurosurgery and
Johns Hopkins Biomechanics and Surgical Outcomes Laboratory, Baltimore, Maryland

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Page Range:
320–328
Volume/Issue:
Volume 21: Issue 3
DOI link:
https://doi.org/10.3171/2014.5.SPINE13567
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Object

A number of imaging techniques have been introduced to minimize the risk of pedicle screw placement. Intraoperative CT has been recently introduced to assist in spinal instrumentation. The aim of this study was to study the effectiveness of intraoperative CT in enhancing the safety and accuracy of pedicle screw placement.

Methods

The authors included all cases from December 2009 through July 2012 in which intraoperative CT scanning was used to confirm pedicle screw placement.

Results

A total of 203 patients met the inclusion criteria. Of 1148 screws, 103 screws (8.97%) were revised intraoperatively in 72 patients (35.5%): 14 (18.42%) were revised in the cervical spine (C-2 or C-7), 25 (7.25%) in the thoracic spine, and 64 (8.80%) in the lumbar spine. Compared with screws in the thoracic and lumbar regions, pedicle screws placed in the cervical region were statistically more likely to be revised (p = 0.0061). Two patients (0.99%) required reoperations due to undetected misplacement of pedicle screws.

Conclusions

The authors describe one of the first North American experiences using intraoperative CT scanning to confirm the placement of pedicle screws. Compared with a similar cohort of patients from their institution who had pedicle screws inserted via the free-hand technique with postoperative CT, the authors found that the intraoperative CT lowers the threshold for pedicle screw revision, resulting in a statistically higher rate of screw revision in the thoracic and lumbar spine (p < 0.0001). During their 2.5-year experience with the intraoperative CT, the authors did not find a reduction in rates of reoperation for misplaced pedicle screws.

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Contributor Notes

Address correspondence to: Timothy F. Witham, M.D., The Johns Hopkins Hospital, 600 N. Wolfe St., Meyer 7-109, Baltimore, MD 21205. email: twitham2@jhmi.edu.

Dr. M. Bydon and Mr. Xu contributed equally to this work.

Please include this information when citing this paper: published online June 13, 2014; DOI: 10.3171/2014.5.SPINE13567.

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