To assess the efficacy and feasibility of vertebroplasty and posterior short-segment pedicle screw fixation for the treatment of traumatic lumbar burst fractures. Short-segment pedicle screw instrumentation is a well described technique to reduce and stabilize thoracic and lumbar spine fractures. It is relatively a easy procedure but can only indirectly reduce a fractured vertebral body, and the means of augmenting the anterior column are limited. Hardware failure and a loss of reduction are recognized complications caused by insufficient anterior column support. Patients with traumatic lumbar burst fractures without neurologic deficits were included. After a short segment posterior reduction and fixation, bilateral transpedicular reduction of the endplate was performed using a balloon, and polymethyl methacrylate cement was injected. Pre-operative and post-operative central and anterior heights were assessed with radiographs and MRI. Sixteen patients underwent this procedure, and a substantial reduction of the endplates could be achieved with the technique. All patients recovered uneventfully, and the neurologic examination revealed no deficits. The postoperative radiographs and magnetic resonance images demonstrated a good fracture reduction and filling of the bone defect without unwarranted bone displacement. The central and anterior height of the vertebral body could be restored to 72 and 82% of the estimated intact height, respectively. Complications were cement leakage in three cases without clinical implications and one superficial wound infection. Posterior short-segment pedicle fixation in conjunction with balloon vertebroplasty seems to be a feasible option in the management of lumbar burst fractures, thereby addressing all the three columns through a single approach. Although cement leakage occurred but had no clinical consequences or neurological deficit.
The Ilizarov method has been studied extensively in the management of non-union of long bones. In most cases this involves filling of defects present primarily or after débridement by bone transport. Acute docking over gaps longer than 2 cm has not been adequately studied, however. The purpose of this paper is to report the efficacy of acute peg in hole docking as a bone graft-sparing modality in the management of infected non-union of long bones.
Background: Vertebral augmentation has been widely used to treat vertebral body
compression fractures caused by varied pathologies. The lifetime risk of a vertebral
body compression fracture is 16% for women and 5% for men, and exponential increase of osteoporotic fractures worldwide.
Purpose: To determine the efficacy and durability of percutaneous vertebroplasty for
the treatment of back pain associated with osteoporotic vertebral fractures.
Design: A prospective study.
Materials and Methods: A prospective evaluation of pain relief in 30 patients, with
mean age of 73.7 years, who underwent percutaneous injection of polymethyl methacrylate into 54 vertebrae under fluoroscopic guidance over a period of 35 months was
done. Before the procedure and at follow up, patients were asked to quantify their pain
on a visual analogue scale.
Results: The procedure was technically successful in all the patients. Mean duration
of follow up was 21.5 months (6-44months). Ninety-seven percent of the patients reported a significant relief 24 hours after the procedure. Ninety-two percent reported
significant improvement in back pain, previously associated with a compression fracture, as well as improved ambulatory ability. Before vertebroplasty, the VAS score was
8.91+/- 1.82 compared to a score of 2.02+/- 1.95 at follow up. The mean difference in
VAS score was significant (p<.0001). One patient had an asymptomatic epidural leak of
PMMA, however did not require any further intervention.
Conclusion: Percutaneous vertebroplasty of symptomatic osteoporotic vertebral compression fractures is a minimally invasive procedure that provides immediate and sustained pain relief in patients with refractory pain.
Key words: Compression fracture, osteoporosis; pain, vertebroplasty, polymethylmethacrylate
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