Three-dimensional computed tomography-based, personalized drill guide for posterior cervical stabilization at C1-C2

Citation
J. Goffin et al., Three-dimensional computed tomography-based, personalized drill guide for posterior cervical stabilization at C1-C2, SPINE, 26(12), 2001, pp. 1343-1347
Citations number
18
Language
INGLESE
art.tipo
Article
Categorie Soggetti
Neurology
Journal title
SPINE
ISSN journal
0362-2436 → ACNP
Volume
26
Issue
12
Year of publication
2001
Pages
1343 - 1347
Database
ISI
SICI code
0362-2436(20010615)26:12<1343:TCTPDG>2.0.ZU;2-4
Abstract
Study Design. Cadaver and preliminary clinical study. Objectives. To enhance the precision of screw positions for posterior trans articular fixations according to Magerl at C1-C2. Summary of Background Data. The vertebral arteries are at risk during the M agerl operation and may be damaged in up to 4.1% of cases. Even intraoperat ive navigation, as often used nowadays, does not provide optimal screw posi tioning in all patients. Methods. According to the three-dimensional CT data obtained for every indi vidual cadaver or patient, a template was designed for the posterior course of C2: the template contains a drill guide allowing navigated screw positi oning inside the left and right isthmus of C2. For a first series of five c adavers a template with clamps connecting only to the lamina of C2, excludi ng the spinous process from the interface, was carried out, For a second se ries of three cadavers the template was connected not only to the lamina bu t also to the spinous process of C2. Both cadaver series were performed wit hout any fluoroscopic control at surgery. Eventually the technology was app lied in two clinical cases. Results. The rotational stability of the template toward the lamina C2 was insufficient in the first series, but for the second series both the entry points and screw trajectories were very satisfactory. Conclusions. Although the actual experience is limited, the idea of using a template with drill guide might simplify and shorten the surgical act and at the same time enhance the accuracy of C1-C2 transarticular screw positio ning.