View clinical trials related to Fractures, Compression.
Filter by:Patients with vertebral compression fractures (VCF) may experience pain, limitation of daily activities, and various complications (e.g., insomnia, constipation, urinary infection, depression, diminished quality of life). Objective: This study aims to evaluate the effectiveness, safety and feasibility of acupuncture treatments to achieve pain relief and functional recovery in patients with VCF.
Based on the case reports and other literature, the investigators hypothesize that using PVP for treating GIOPVCF is associated with increased risk of vertebral refractures and does not provide further benefits compared to conservative treatments. The overall objective of this prospective cohort study is to compare the efficacy of PVP and conservative treatment for GIOPVCF. The evaluation of efficacy of therapy includes: 1) the incidence of vertebral refractures; 2) therapeutic effects (pain relief and health-related life quality) and 3) complications. The results from study will be written in English and disseminated widely through scholarly presentations, peer-reviewed publications, and other written communications.
The purpose of this study is to compare the treatment efficacy between vertebral body decompression procedure and conservative treatment with non-inferiority design
This study will compare two standard treatments in acute stable traumatic vertebral fractures (types A1 and A3.1 by Magerl Classification). The two treatments are as follows: 1. SpineJack® system 2. Conservative Orthopedic Management consisting of brace and pain medication.
The purpose of this study is to investigate patient related factors that contribute to increased risk of recurrent fractures and to investigate patient adherence to prescribed anti-osteoporotic drugs.
Vertebroplasty itself is challenged regarding its clinical efficacy. While two randomized controlled trials (RCTs) with substantial methodological problems have led to an intense discussion another RCT with larger case numbers, more representative inclusion criteria and a more consistent and sound methodology has revealed results that mirror the investigators' own clinical experience. In their daily practice, the investigators have further advanced their treatment concept and routinely apply prophylactic augmentations with VP using an algorithm. Biomechanical studies support their approach, but clinical studies are rare so far. Prophylactic augmentation with balloon kyphoplasty has not shown convincing effects in a small pilot study. Given the above mentioned methodological and clinical disputes and the call for high-evidence studies about VP, the investigators aim at generating a reliable sample size calculation and preliminary results for a future multicenter RCT about prophylactic adjacent level augmentation with VP in single level osteoporotic compression fractures.
This randomised, double-blind study compared remifentanil and dexmedetomidine for monitored anaesthesia care (MAC) during minimally invasive corrections of vertebral compression fracture (vertebroplasty (VP) and kyphoplasty (KP)). In total, 80 ASA physical status I-III patients scheduled for VP and KP randomly received remifentanil or dexmedetomidine to maintain OAA/S scale ≤ 4 during the procedures. Multiple hemodynamic variables of patients were recorded and the frequency of oxygen desaturation, respiratory depression, intraoperative need for other opioids, recovery time, operator satisfaction score, and patients' overall pain experiences were also compared. The investigators are expecting that both remifentanil and dexmedetomidine appear to be quite safe for MAC during VP and KP. Thus, dexmedetomidine may be an alternative for MAC during VP and KP in elderly patients.
The purpose of this study is to compare the safety and effectiveness of the SpineJack® with the Kyphx Xpander® Inflatable Bone Tamp and support a non-inferiority finding for the use of SpineJack® VCF treatment system versus Balloon Kyphoplasty.
This randomized phase II trial studies how well cement augmentation works in preventing vertebral body compression fracture following spine stereotactic radiosurgery in patients with solid tumors that have spread to the spine. Spine stereotactic radiosurgery delivers a high dose of radiation to vertebral metastases and can sometimes lead to a vertebral compression fracture. Using body cement on the largest part of the vertebra (a procedure called vertebral body cement augmentation) may help prevent a fracture after stereotactic spinal radiosurgery. It may also lessen pain and improve quality of life in patients with solid tumors and spinal metastases undergoing this surgery.
The VITTA trial is a randomized, controlled, single-blinded, cross-over trial comparing percutaneous vertebroplasty with facet block in patients with acute (<1month) and painful vertebral compression fractures. The treatment offered for vertebral compression fractures (VCFs) in the interventional arm of the trial is vertebroplasty, which will be performed in accordance with the standardized protocol of the Canadian Association of Radiologists. Patients in the control arm will receive facet block, where a long-acting local anesthetic agent and corticosteroids are injected in the spinal articular facets at the affected level.