Percutaneous treatment with VP for aggressive and symptomatic vertebral hemangiomas even with epidural extension is a valuable, mini-invasive, and quick method that allows a complete and enduring resolution of the painful vertebral symptoms without findings of fracture of a vertebral body adjacent or distant to the one treated.
Vertebroplasty and kyphoplasty are both useful in the management of vertebral pain. In light of our experience, vertebroplasty is better indicated for vertebral fractures due to osteoporosis, haemangioma or metastasis on account of its simplicity and minimal invasiveness. Kyphoplasty is suggested in acute traumatic fractures of type A1 and A3 according to Magerl, as it allows recovery of vertebral stability and a better distribution of the cement.
We describe our preliminary experience with the vertebral body stenting system (VBS) for the treatment of osteoporotic vertebral fracture or traumatic vertebral fracture showing our clinical results at 12 months follow-up. Twenty patients (16 women, four men, mean age 71 years): four with traumatic vertebral fracture (Magerl A1 fractures) and 16 with osteoporotic vertebral compression fracture (VCFs) resistant to conservative therapy, were treated by vertebral body stenting system (VBS) as follows: two at level T11, four at T12, one at L1, two at L2, five at L3 and six at L4. All patients were studied by MR (protocol: sagittal T1W, T2W and T2 STIR) and MDCT with MPR reconstructions. All procedures were performed under local anesthesia with fluoroscopy guidance and a bipeduncular approach. VBS, a new system of implantation of endovertebral stent used as an alternative to conventional vertebroplasty (VP), was implanted in all patients to restore the loss of height in the fractured vertebral body. A clinical and x-ray follow-up was performed at six and 12 months evaluating the result by VAS and ODS scale. New vertebral fractures at a distant level were observed in two cases and treated by VP. VBS was successful and led to an excellent outcome in all patients with clinical improvement stable at six months and one year follow-up. The height in the fractured vertebral body was increased in 12 of the 20 VCFs by an average of 1.5 mm. No vascular, extraforaminal or epidural leakage or other adverse events were observed. In the clinical 12 months follow-up we recorded a reduction of four scores in the VAS evaluation and a 40% reduction in the ODS score compared with the pre-treatment values. Endovertebral stents were stable at 12 months at x-ray control in 19/20 patients. No new vertebral fracture located in adjacent vertebrae were observed at 12 month follow-up. By using a stent, the VBS system reduces the collapsed vertebral body and offers good height restoration. The mechanical scaffold of the stent restores the height and at the same time offers a cavity for injection of highly viscous PMMA bone cement without increasing the rate of new vertebral fracture post-VP. A long-term follow-up is recommended.
Low back pain is the commonest spine disease causing absence from work in developed countries. Low back pain with classical irradiation along the course of the nerve root affected is more frequently due to disc disease. In 60-80% of patients with herniated disc, radicular symptoms disappear with conservative treatment after about six weeks, the remainder are treated surgically with a 2-6% of incidence of true recurrence of herniation post-intervention and with failed back surgery syndrome in 15% of cases. Recently minimally invasive techniques have developed as "alternative" treatments to surgical intervention. This review aimed to assess the pathogenesis of low back pain caused by lumbar disc hernia as a basis for action of minimally invasive techniques; to illustrate the techniques already used or currently in use, to compare them in technical guidance, indications and complications, exposing for each of them the inclusion/exclusion criteria in enrolling patients and the imaging guide technique of choice. Minimally invasive techniques can be a valuable alternative to traditional surgery with low cost, low risk of complications, easy feasibility, and in the event of failure they do not exclude subsequent surgery.
SUMMARYWe present a case report of a 33-year-old woman with back pain for several months which was resistant to medical treatment. Thoracolumbar MRI and multidetector CT showed an aneurysmal bone cyst intersecting the body and pedicles of L5. Minimally invasive treatment was performed with percutaneous injection of osteoconductive cement (Cerament) to induce sclerosis and bone remodeling of the bone cyst lesion with an analgesic effect. Before treatment, spinal angiography was performed to exclude arterial afferents. No bone biopsy was done. Under general anesthesia and fluoroscopic guidance, a first vertebroplasty was performed by a bilateral transpedicular approach using the osteoconductive cement followed 2 months later by a second treatment with CT-fluoro-guided direct injection of Cerament. No complications occurred during the procedure. At 4 and 6 months follow-up the MRI/CT showed sclerotic bone remodeling of the walls of the aneurysmal cyst with clinical improvement. BACKGROUND
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