Introduction/Aim. Numerous lumbo-pelvic reconstruction methods based on posterior construct and anterior cages have been proposed for cases involving total sacrectomy and lumbar vertebrectomy. These constructs create long lever arms and generate high cantilever forces across the lumbo-sacral junction resulting in implant failure or breakage. Biomechanical studies have shown that placing implants anterior to lumbo-sacral pivot point provide a more effective moment arm to resist flexion force and improve the ultimate strength of the construct. As a result more emphasis is placed on screws in the pelvis. We report a new and novel technique that allows for the placement of a pelvic ring construct to augment the posterior construct in a lumbo-pelvic reconstruction. Method. In the prone position, two contoured hard rods are passed along the inner table of the pelvis under the iliac muscle from a minor posterior approach. The rods are connected to the posterior lumbo-pelvic construct with T-junction clamps. The patient is turned supine and the anterior ends of the rods are connected to a sub-cutaneously placed hard rod along the anterior abdominal wall with T-junction clamps. This in turn is fixed to the AIIS (anterior inferior iliac spine) with two poly axial screws. The whole construct resembles an oblong ring. Results. At six months she is mobilising independently with a frame and X-rays show no failure of construct or implant. Conclusion. The construct is technically less morbid and bio-mechanically sound to effectively neutralise the flexion to a greater degree than previous constructs described in the literature. It shares and tolerates the flexion moments at the lumbo-pelvic junction by its anterior placement to the sacral pivot point

Introduction. Isolated U-shaped sacral fractures are rare entities, mostly seen in polytraumatized patients, and hence, they are difficult to diagnose. While the pelvic ring remains intact across S2/S3, the U-shaped fracture around S1 leads to marked instability between the base of the spine and the pelvis. As severe neurological deficits can occur, timely treatment of these fractures is crucial. We present a novel technique of percutaneous reduction and trans-sacral screw fixation in U-shaped fractures. Material and Methods. 3 multiply injured patients with u-shaped sacral fractures (female, age 21.7±7.23). Two underwent immediate fracture fixation. In the third case delayed reduction and fixation was performed after referral 6 weeks following open decompression. In prone position, a pair of Schanz pins was inserted into pelvis at the PSIS. A second pair of Schanz pins was inserted into S1 or L5. All pins were inserted percutaneously. The fracture was reduced indirectly, using the Schanz pins as levers. After image intensifier control of the reduction result, two trans-sacral screws were inserted for finite fixation. Results. In all three cases, this novel method of percutaneous reduction allowed an anatomical sacral alignment and stabilization with trans-sacral screws was initially sufficient. At 1 year follow-up, both immediately fixed fractures showed an anatomical sacral alignment. Both had no neurological deficits, no signs of screw-loosening and were pain free. Unfortunately the delayed fixation showed a new tilt and hence loss of sacral alignment. This might be due to posterior structural integrity loss after decompression. Conclusion. U-shaped sacral fractures are rare, but correct and immediate treatment is paramount to achieve good outcome. Percutaneous reduction and screw fixation offers a less invasive treatment method. Anatomical alignment and stabilisation is possible and time of surgery can be reduced significantly

Aims

High-grade dysplastic spondylolisthesis is a disabling disorder for which many different operative techniques have been described. The aim of this study is to evaluate Scoliosis Research Society 22-item (SRS-22r) scores, global balance, and regional spino-pelvic alignment from two to 25 years after surgery for high-grade dysplastic spondylolisthesis using an all-posterior partial reduction, transfixation technique.

Aims

The timing of surgical fixation in spinal fractures is a contentious topic. Existing literature suggests that early stabilization leads to reduced morbidity, improved neurological outcomes, and shorter hospital stay. However, the quality of evidence is low and equivocal with regard to the safety of early fixation in the severely injured patient. This paper compares complication profiles between spinal fractures treated with early fixation and those treated with late fixation.

We reviewed 15 consecutive patients, 11 women and four men, with a mean age of 48.7 years (37.3 to 62.6), who between July 2004 and August 2007 had undergone percutaneous sacroiliac fusion using hollow modular anchorage screws filled with demineralised bone matrix.

Each patient was carefully assessed to exclude other conditions and underwent pre-operative CT and MR scans. The diagnosis of symptomatic sacroiliac disease was confirmed by an injection of local anaesthetic and steroid under image intensifier control.

The short form-36 questionnaire and Majeed’s scoring system were used for pre- and post-operative functional evaluation. Post-operative radiological evaluation was performed using plain radiographs.

Intra-operative blood loss was minimal and there were no post-operative clinical or radiological complications. The mean follow-up was for 17 months (9 to 39). The mean short form-36 scores improved from 37 (23 to 51) to 80 (67 to 92) for physical function and from 53 (34 to 73) to 86 (70 to 98) for general health (p = 0.037). The mean Majeed’s score improved from 37 (18 to 54) pre-operatively to 79 (63 to 96) post-operatively (p = 0.014). There were 13 good to excellent results. The remaining two patients improved in short form-36 from a mean of 29 (26 to 35) to 48 (44 to 52). Their persistent pain was probably due to concurrent lumbar pathology.

We conclude that percutaneous hollow modular anchorage screws are a satisfactory method of achieving sacroiliac fusion.