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Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_III | Pages 222 - 222
1 Mar 2003
Gaitanis I Tzermiadianos M Katonis P Thalassinos I Muffoletto A Hadjipavlou A
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Aim: Presentation of the application of the transcervical system of posterior spinal fusion Varigrip in spinal infections showing its rapid and safe application and also its stability to the spinal level where it is applied to.

Patients and Methods: 22 patients (13 men / 9 women) with mean age 50, 6 years (18–79) and mean follow up time is 34,6 months (9–62) were included in our study. In 10 patients the level was in lumbar spine and in 12 in thoracic spine. In their admission 16 patients had neurological deficit and 22 mean pain score according to VAS 8, 4 (6–10). ESR was increased in 14 patients, CRP in 20 and 7 patients had also increased WBC. All 22 patients had increased signal of Tc” and 69Ga in the level of the lesion and also pathological signal in MRI (Tl, T2 and Tl with Gadolinium). All the patients underwent posterior spinal fusion using Varigrip system and 17 of these underwent in the same time somatectomy and anterior fusion.

Results: Pathologic organism was isolated to all the patients. In 20 patients the tissue culture of the lesion isolated the pathologic organism and the other 2 patients came to us with positive blood cultures from other hospitals. 6 months postoperatively 21 patients referred pain score according to VAS 2,4 (1–4) and 1 patient had no improvement (5–7). 1 patient died of PE, another of chest infection and one of head injury. 1 patient had recurrence of the infection in another level, 1 had herpeszoster and 1 had infection of the surgical wound. All the patients had neurological improvement postoperatively.

Conclusions: The method is characterized as safe because of avoidance of the neurological structures. It can be applied also safely to patients with osteoporosis. Its application is rapid so the surgical time is minimum and also it doesn’t need image intensifier during the surgical procedure. It can be applied easily either in thoracic or lumbar spine and it provides stability of the spine.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_III | Pages 221 - 221
1 Mar 2003
Katonis P Muffoletto A Papadopoulos C Thalassinos I Hohlidakis S Hadjipavlou A
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Aim: Of Calveston (USA) and Crete (HELLAS). We studied immediate and long-term outcome of 50 patients who underwent subaxial lateral mass fixation of the cervical spine between January 1997 and March 2001.

Patients and Methods: Intraopeartive fluoroscopy and somatosensory evoked potential monitoring were employed in all patients. Immediate postoperative CT scans were performed to determine screw trajectory and placement. Follow up ranged from 1 to 5 years.

Results: Postoperative CT scans showed that 113 of 210 screws (54%) had unicorticate and 46% had bicorticate purchase. Forty-five screws (31 %) had suboptimal trajectory, but only 7 of these screws minimally penetrated the foramen transversarium without resultant vascular or neurological sequelae.

The overall fusion success rate in our series was 90%, while pseudoarthrosis occurred in 5 patients (10%), with screw breakage in 1 patient (2%). Two of these patients had bone graft supplementation and in other 2 patients was done anterior fusion.

Conclusions: Results of this study show that the recommended drilling technique and trajectory (15–25 degrees postal to the sagital plane, 20–30 degrees lateral I the axial plane), supplemented bone grafting and intraoperative SEP monitoring are all associated to good screw placement, fusion and neurological outcome and are recommended for all lateral mass fusion procedures.