J Neurol Surg A Cent Eur Neurosurg 2017; 78(S 01): S1-S22
DOI: 10.1055/s-0037-1603851
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Georg Thieme Verlag KG Stuttgart · New York

Reliability and Importance of Intraoperative CT Navigation in Spinal Surgery: A Single-Center Experience on a Cohort of 235 Cases

P. Scarone
1   Neurocenter of the southern Switzerland, Switzerland
,
A. Venier
1   Neurocenter of the southern Switzerland, Switzerland
,
N. Porz
1   Neurocenter of the southern Switzerland, Switzerland
,
G. Vincenzo
2   Ente Ospedaliero Cantonale, Bellinzona, Switzerland
,
D. Di Stefano
1   Neurocenter of the southern Switzerland, Switzerland
,
S. Presilla
2   Ente Ospedaliero Cantonale, Bellinzona, Switzerland
,
M. Reinert
1   Neurocenter of the southern Switzerland, Switzerland
› Author Affiliations
Further Information

Publication History

Publication Date:
02 June 2017 (online)

 
 

    Aims: In this retrospective study we investigated the advantages of intraoperative CT (AIRO) versus 3 dimensional fluoroscopy (O-Arm) and report our experience on a series of 235 patients operated for various indications (from 2014–2017). For each indication, our goal was to check the reliability of a navigation system coupled with CT, the learning curve of iCT-navigation, and radiation doses to the patient. We also tried to define the main benefit of i-CT navigation for each group, compared with traditional fluoroscopic control or other 3D imaging methods.

    Methods: Retrospective evaluation of a series of 235 patients submitted to spinal surgery, separated in 4 groups: 1 Thoraco-lumbar instrumentations in patients not previously operated; 2 Thoraco-lumbar instrumentations previously operated; 3 Posterior cervical approaches (instrumentation and/or decompression); 4 Anterior cervical instrumentations; 5 Anterior/lateral approaches at thoracic/lumbar levels, removal of extradural tumors via posterior approaches.

    Results: Reliability was very high, as shown by the lower number of intraoperatively repositioned screws compared with fluoroscopy or O-arm. Duration of surgery and rate of repositioning significantly diminished in each group, when we compared last operated patients vs initial ones. A learning-curve effect was however not identified in our series (due to the fact that most of the surgeons were already experienced with the O-arm system). Radiation doses were higher in revision cases and anterior approaches (group 2 and 5). One patient in this series (0.005%) needed revision surgery for a malpositioned screw on L5, that was not checked with intraoperative CT after repositioning.

    Conclusion: Main benefits of iCT navigation in each group were, in our experience:

    1. Group 1: accuracy improvement during screw positioning, decrease of repositioning rate compared with O-arm

    2. Group 2: easier identifications of neural structures during microsurgical decompression

    3. Group 3: accuracy improvement during screw positioning at cervico-thoracic junction, verification of decompression in cases of cervical hemilaminectomy

    4. Group 4: verification of decompression during osteophytes removal

    5. Group 5: easier identification of spinal canal during thoracic anterior corpectomies, identification of pathology levels during removal of extradural tumors.


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    No conflict of interest has been declared by the author(s).