We studied the correction achieved and the maintenance of the correction at a minimum 15 months follow up using the Paediatric USS.
To assess the results of this technique for stabilisation of severe spondylolisthesis, 12 patients with symptomatic severe spondylolisthesis underwent this procedure. The slipped L5 vertebra was stabilized using a hollow medullary screw through the posterior part of the body of S1 into the slipped L5 body, supplemented with pedicle screws into L5 and S1 with posterolateral fusion. At one year follow-up, all but one patient had improved in leg pain. 2 patients were aware of the prominent pedicle screws. 360° fusion was achieved without any progression of spondylolisthesis. Thus 360° fusion for severe L5-S1 spondylo-listhesis can be achieved effectively using this technique.
The purpose of this prospective study is to evaluate the benefits of intra discal electrothermal treatment (IDET) for discogenic back pain. 40 patients with chronic discogenic back pain underwent this therapy. All the patients had a failed trial of conservative treatment. Patients with a positive provocative discogram were selected for IDET. The outcome is assessed using a SF36 questionnaire pre-procedure and then at 3,6,12,18 and 24 months post-operatively. The mean age group of the patients was 37 years (range 15–58 years). All the patients had a minimum follow up of 18 months. Out of the 40 patients 5(12.5%) had no improvement and had to undergo an interbody fusion within 6 months following IDET and hence were excluded from the study. No patient developed any neurological complications. Of the rest of the 35 patients at a minimum of 18 months follow-up 56 % (p=0.042) patients had improvement in physical function scores and 52% (p=0.034) had improvement in pain scores as per the SF36. Conclusion: IDET appears to be an effective alternative to control pain in patients who might otherwise be candidates for spinal fusion.
Controversy exists as to whether the biomechanical properties of a 360 lumbar fusion are influenced by the order in which the anterior and posterior components of the procedure are performed. The fusion technique used Magerl screws to effect the posterior fusion and a Syncage implant (Stratec) to effect the anterior component of the fusion. Isolated motion segments from calf spines were tested in each of two groups of five. In the first group the posterior fusion was performed first and in the second group the anterior fusion was performed first. Loads were applied as a dead weight of 2Nm in each range of movement of the spine (flexion/extension, lateral flexion and rotation). The range of movement was measured using the Qualisys motion analysis software linked to a set of five cameras, using external marker clusters attached to the vertebral bodies. Each motion segment was tested prior to instrumentation, post anterior or posterior instrumentation and with both anterior and posterior instrumentation. Ranges of movement following 360 instrumentation were increased in all planes tested when posterior fixation was performed first; flexion/extension 26% v 55% (p=0.020), lateral flexion 18% v 34% (p=0.382), and rotation 18% v 73% (p=0.034). It was concluded that posterior fixation should not be performed prior to anterior fixation as this results in a significant loss of stability in both flexion/extension and rotation