View clinical trials related to Spinal Fractures.
Filter by:Balloon kyphoplasty for the treatment of patients with osteoporotic vertebral compression fractures has been shown to be successful in providing acute pain relief, enabling improved function, and restoring of vertebral body height. However, limited prospective data exists in the investigation of unipedicular balloon kyphoplasty as a sufficient alternative to bipedicular balloon kyphoplasty. The purpose of this prospective randomized study was to compare the clinical and radiographic outcomes of unipedicular and bipedicular balloon kyphoplasty.
Subject of the proposed study is the non-invasive in vivo imaging of bone, bone marrow and localized microcirculation in test animals with osteoporosis, fractures and after placement of bone substitute material with volume computed tomography (VCT) (animals only) and functional magnetic resonance imaging (MRI). In vivo imaging by means of functional MRI and VCT is carried out in osteoporotic rats, both after the induction of fracture as well as after the placement of bone substitute material. Furthermore, patients with asymptomatic MM are investigated with functional MR-Imaging (Dynamic Contrast Enhancement- MRI and Intravoxel incoherent motion (IVIM)-imaging) longitudinally to predict the occurrence of osteolysis and the time to progression regarding SLIM-CRAB-Criteria (Rajkumar et al., Lancet Oncology, 2014). Hypothesis: 1. Affection of microcirculation at the junction of bone and bone substitute material can be displayed by VCT and functional MRI 2. Functional MRI has prognostic value regarding occurrence of osteolysis and progression to MM regarding SLIM-CRAB-Criteria
This study is designed to evaluate the safety, level of performance and level of comfort with the Canadian C-Spine rule in a prehospital setting by emergency medicine undergraduates.
In this project, with unstable vertebral fractures, the microcirculation of the skin and muscle (O2C,Laser-Doppler/White-light -Spectroscopy and contrast-enhanced sonography) will be evaluated in both conventional and in percutaneous minimally invasive technique (XIA versus Mantis) at the thoracolumbar junction.
The standard care in patients with a painful osteoporotic vertebral compression fracture (VCF) is conservative therapy. Percutaneous vertebroplasty (PV), is a new minimally invasive technique for pain treatment in which bone cement is injected in the fractured vertebra. Recent RCTs provide conflicting results: two sham-controlled studies show no benefit of PV while an unmasked but controlled RCT found significantly better pain relief after PV at acceptable costs.
The purpose of this study is to evaluate the safety and effectiveness of the Kiva VCF Treatment system in comparison to balloon kyphoplasty for the treatment of osteoporotic vertebral compression fractures of the thoracic or lumbar spine.
The aim of this randomized controlled trial is to evaluate the effectiveness for health-related quality of life (HRQOL) of a 3-month course of exercises for a group of postmenopausal women with osteoporosis who has at least one vertebral fracture versus a control group (undertaking their usual activities). The course of exercises is devised in accordance with methods recommended in "Rehabilitation treatment guidelines in postmenopausal and senile osteoporosis".
Primary objective was to demonstrate the activity of REGN475/SAR164877 in reducing the pain associated with vertebral fracture. Secondary objectives were: - to assess the safety and tolerability of REGN475/SAR164877 in patients with vertebral fracture pain; - to characterize the pharmacokinetic and immunogenicity profiles of REGN475/SAR164877 in this population.
The purpose of this study is to determine whether percutaneous vertebroplasty is able to improve long-term quality of life in patients with pain secondary to osteoporotic vertebral fractures, compared to conventional medical treatment.
The OsseoFix Spinal Fracture Reduction System facilitates the treatment of spinal fractures by providing internal fixation and stabilization using a titanium implant in conjunction with OsseoFix+™ polymethylmethacrylate (PMMA) bone cement. The purpose of the study is to provide reasonable assurance on safety and effectiveness of the OsseoFix Spinal Fracture Reduction System for market release approval in the US. This investigational device is intended to restore biomechanical integrity to a vertebral body that has suffered a painful compression fracture in the thoracic or lumbar spine between levels T6 and L5.