Loading clinical trials...
Loading clinical trials...
Showing 1-11 of 11 trials
NCT02789774
A multicenter randomized controlled trial is performed in Sweden (Uppsala, Malmo and Stockholm) comparing surgery with posterior C1-C2 fusion and conservative treatment with a rigid collar. Follow up will be performed up to one year after start of treatment registering EQ5D, NDI and cervical CT scans. Mortality will be documented during follow-up. All direct and indirect costs of treatment will be registered and used for cost-effectiveness analysis.
NCT02931279
Prospective, multicenter non comparative and observational study (post-market clinical follow-up). Patients operated with PASS OCT® manufactured by MEDICREA® INTERNATIONAL between July 2016 and July 2017. The inclusion period will be 12 months and the follow-up 24 months
NCT04956588
To evaluate the safety and effectiveness of the intelligent orthopedic minimally invasive surgery system developed by Shenzhen Xinjunte Intelligent Medical Equipment Co., Ltd. in spinal surgery.
NCT02566655
The purpose of this study is to evaluate the safety of intravenous infusion of fucosylated autologous bone marrow cells as a new therapy in patients with established osteoporosis by a prospective, single-center, open, non-randomized and unblinded clinical trial.
NCT02950532
The objective of this investigation is to confirm the results obtained in a pilot study showing that certain radiological parameters based on computed tomography (CT) scans seem to reliably detect posterior ligament complex (PLC) injury without the need for Magnetic Resonance Imaging (MRI)
NCT04201678
As of October 2019, when the investigators received the approval of the ethics committee, patients who were decided to undergo kyphoplasty with vertebral compression fracture will be included in the study. The patients will be divided into three groups according to the anesthetic method as conventional local anesthesia infiltration (CLIA) method and extrapedicular infiltration anesthesia (EPIAA) and 30 other patients as US guided erector spina group (ESP) for a total of 60 patients. The degree of pain in the intraoperative period will be assessed using a numerical rating scale. Patients with severe pain (NRS\> 4) will receive 50 micrograms of fentanyl as an additional analgesic. Sedation levels of the patients will be evaluated with ramsey sedation scale (1-6). Patients with a sedation score of 1 will receive 2 mg of midazolam. During the procedure, pain scores at 0 minutes, 15, 30 and 45 minutes, sedation scores, additional analgesic and sedation amounts administered, and hemodynamic parameters will be recorded. The statistical difference between the groups will be compared
NCT01761084
The long-term goal of our research team is to conduct a large multicentre study to evaluate whether tailored home exercise can prevent fractures in high-risk individuals. The proposed project will address the feasibility of such a trial, but will also evaluate the effect of exercise on quality of life, posture and many other outcomes important to individuals with vertebral fractures. Physiotherapists will conduct 6 home visits with participants to deliver the intervention (or social visit for controls) using a similar model to previous work by our team and others. The purpose of this pilot study is determining the feasibility of recruitment, retention and adherence of an international multicentre randomized controlled study evaluating the efficacy of thrice-weekly home exercise for one year among women with vertebral fracture. As secondary objectives, the investigators will examine the effects of exercise on function, balance, quality of life, pain, falls and fractures. The primary hypothesis is that the investigators will successfully recruit and retain the target sample, and achieve an adherence rate of 60%.
NCT02719340
Although long-segment posterior spinal fixation might provide more rigid fixation, the procedure increases perioperative morbidities in the elderly. The present study reviews the results of short-segment decompression and reconstruction in thoracolumbar fragile fractures.
NCT02603874
The current method of incision localization in many surgical procedures requires a doctor to reference a medical image, such as an X-ray, to judge where on the body an incision should be made. However, the precise information of the scan is not shown on the patient's skin. Surgeons commonly use palpation to locate the point of incision. They may feel for the area directly or find landmarks under the skin and estimate the location from there. This can be challenging due to the difficulty of feeling and distinguishing each vertebra, especially for new surgeons, since palpation is a skill derived through experience. If palpation proves ineffective, they may be forced to use fluoroscopy. By referencing the fluoroscopy image the surgeon moves a radiopaque marker, such as their surgical tool, closer to the area of interest. Fluoroscopy is time-consuming, and exposes medical personnel and the patient to radiation. Many fluoroscopic images may be required in a single procedure. The purpose of this study is to test the efficacy and benefits of a new medical device that will aid in radiological localization. The hypothesized outcome would be smaller incisions, faster localization and a reduction in fluoroscopy use. By identifying the efficacy of this new medical device, "Target Tape", there is the potential outcome of making smaller incisions, faster localization, a reduction in fluoroscopy use and a reduced chance in surgical error and the associated costs. Target Tape is a non invasive device that is in a grid format that is placed against the subject's skin. The grid pattern will then appear on the medical imaging scan. The medical practitioner can correlate device grid on the body to the medical scan image to make their incisions in more accurate locations.
NCT02234414
In Switzerland, the prevalence of vertebral fractures in community- dwelling women is unknown and the published data from the Swiss hospitals statistics represent only the tip of the iceberg. In addition, the percentages of women correctly identified with vertebral fractures due to osteoporosis and the treatment rate of these women with a drug proven to reduce the risk of further fractures are unknown. Furthermore, it is not known whether the prevalence of vertebral fractures differs between urban and rural areas or between mountain areas and plain country, e.g. due to possible differences in sun exposure (vitamin D production) and/ or in physical activity and/ or dietary habits. Clinical signs and symptoms leading to the suspicion of vertebral fracture(s) lack either sensitivity (wall-occiput distance) or specificity (rib-pelvis distance). Whether a combination of both would improve sensitivity and specificity is unknown. The gold standard for the diagnosis of vertebral fracture relies on antero-posterior and lateral X-Rays of the thoracic and lumbar spine. Despite standardization of X-Ray readings, a retrospective study of hospitalized elderly patients has shown that as many as 50% of the radiographic reports failed to note the presence of moderate to severe vertebral fractures. In a primary care setting, fewer than 2% of the women received diagnoses of osteoporosis or vertebral fracture, although expected prevalence is 20% to 30% and appropriate drug treatment was offered to only 36% of the diagnosed patients. The recent availability of software for vertebral fracture assessment (VFA) coupled to DXA measurements allows for the detection of vertebral deformities, which is critical for management of osteoporosis, as the existence of such deformities substantially increases the risk of subsequent fracture. Recently published results show that VFA allows the diagnosis of a vertebral fracture. The sensitivity of VFA for detection of vertebral fractures compared to expert radiologist reading of X-ray is excellent for grade 2 and 3 fractures, ranging between 90-94%.
NCT00290862
Doctors are studying an investigational treatment to be used during the vertebroplasty procedure when treating vertebral compression fractures (spine fractures) that may help to reduce pain and restore mobility. If one has experienced back pain for at least 4 weeks but not longer than 1 year, he/she may be eligible to participate. The purpose of this protocol is to describe the methods for the clinical evaluation of Cortoss for vertebroplasty in patients with painful osteoporotic compression fractures. Eligible patients with painful osteoporotic compression fractures of the spine are divided into two groups. Each enrolled patient will have the vertebroplasty procedure; however one group of patients will have the vertebroplasty procedure using polymethylmethacrylate \[PMMA\] (a Food and Drug Administration \[FDA\]-approved bone cement) and the other group of patients will have the vertebroplasty procedure using a relatively new (investigational) biomaterial called Cortoss.