View clinical trials related to Spinal Cord Compression.
Filter by:C5 palsy (C5P) is a well-known, although rare complication of cervical spine decompression surgery. In severe forms, C5P causes debilitating upper extremity weakness involving the deltoids and/or biceps brachii muscles, ultimately diminishing these patients' quality of life. Furthermore, about half of patients with C5P present with sensory deficits and/or intractable pain in addition to the muscle weakness. Prophylactic bilateral foraminotomy at the C5 level during cervical decompression surgery has been studied recently with the hope that it will minimize the risk of developing a C5 nerve root palsy postoperatively. Although the current literature provides some support for this claim, there are insufficient data establishing this technique as a proven measure to reduce the incidence of C5P. In the present study, we seek to evaluate the effect of bilateral foraminotomy on postoperative C5P incidence rates. Bilateral foraminotomy has been correlated with a reduced risk of developing C5P following cervical decompression surgery, but an identical foraminotomy procedure has never been applied in a randomized manner to all qualifying patients in a study. Additionally, prophylactic foraminotomy has only been prospectively studied during laminoplasty. In the proposed study, bilateral foraminotomy will be randomized to patients receiving cervical decompression surgery (laminoplasty, laminectomy, fusion). This is a multicenter randomized trial, including the following sites: Cleveland Clinic, Columbia University Medical Center, and University of Southern California Spine Center. Patients undergoing cervical decompression surgery will be consented and enrolled if they meet the inclusion and exclusion criteria. Subsequently, incidence of C5P will be monitored to determine efficacy of prophylactic C5 bilateral foraminotomy during cervical decompression.
Metastatic epidural spinal cord compression (MESCC) is a frequent oncologic emergency that requires to be treated promptly. Although direct decompressive surgery is the most effective treatment, surgery is only used in selected patients because most patients have a poor overall condition and short life expectancy. Radiation therapy (RT), therefore, is the most commonly used for patients with MESCC, but conventional RT alone can achieve modest neurologic outcomes. The hypothesis to use stereotactic body radiation therapy (SBRT) for MESCC is that the rapid decompression of epidural mass, durable local control and subsequently improved neurologic outcomes compared to conventional RT are expected when MESCC is treated with SBRT.