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The Journal of Bone & Joint Surgery British Volume
Vol. 93-B, Issue 11 | Pages 1475 - 1478
1 Nov 2011
Sonnery-Cottet B Archbold P Cucurulo T Fayard J Bortolletto J Thaunat M Prost T Chambat P

It has been suggested that an increased posterior tibial slope (PTS) and a narrow notch width index (NWI) increase the risk of anterior cruciate ligament (ACL) injury. The aim of this study was to establish why there are conflicting reports on their significance. A total of fifty patients with a ruptured ACL and 50 patients with an intact ACL were included in the study. The group with ACL rupture had a statistically significantly increased PTS (p < 0.001) and a smaller NWI (p < 0.001) than the control group. When a high PTS and/or a narrow NWI were defined as risk factors for an ACL rupture, 80% of patients had at least one risk factor present; only 24% had both factors present. In both groups the PTS was negatively correlated to the NWI (correlation coefficient = -0.28, p = 0.0052). Using a univariate model, PTS and NWI appear to be correlated to rupture of the ACL. Using a logistic regression model, the PTS (p = 0.006) and the NWI (p < 0.0001) remain significant risk factors. From these results, either a steep PTS or a narrow NWI predisposes an individual to ACL injury. Future studies should consider these factors in combination rather than in isolation.


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_II | Pages 291 - 291
1 Jul 2008
THAUNAT M PAILLARD P LAUDE F SAILLANT G
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Purpose of the study: Pelvic fractures disrupting the pelvic girdle often create a serious challenge for reduction and fixation. Type C fractures of the Tile classification provoke vertical instability. Percutaneous screw fixation under fluoroscopic control in patients positioned in dorsal decubitus enables an extension of early indications for fixation to patients with abdominal or thoracic injuries. The reduction is obtained by progressive transcondylar traction on an orthopedic table. The purpose of this study was to assess functional mid-term outcome and to analyze causes of failure.

Material and methods: From 1995 through 2003, we used the percutaneous sacroiliac screw fixation method for type C fractures in 25 patients; clinical assessment at 45 months mean follow-up was available for 22 patients. Six patients presented a bilateral lesion (C2), seven a vertical sacral fracture (C1-3), and nine sacroiliac disjunction (C1-2). One screw was inserted for ten patients, two screws for twelve. Complementary anterior osteosynthesis was performed for eight patients.

Results: The functional outcome was assessed with the Mageed score. The mean score was 801%. All patients presente satisfactory postoperative reduction (less than 10 mm residual vertical displacement). Early displacement was noted one day 10 in one patient who underwent a revision procedure. There were two late secondary displacements (one with mobilization and one with material fracture) which heal in a misaligned position. There were no iatrogenic complications (neurologic, vascular, infectious) and no cases of nonunion.

Discussion: The long-term functional results were directly related to the quality of the reduction, as previously demonstrated by Matta. In our series, the quality of the postoperative reduction was significantly correlated with time from trauma to surgery. This delay must be as short as possible (less than five days for Routt). The main complication was secondary displacement which was observed in this study among cases with a single posterior screw.

Conclusion: Percutaneous sacroiliac screw fixation provides good functional results and appears to be a safe technique if the initial reduction is satisfactory. Two posterior screws are needed to avoid secondary displacement.