View clinical trials related to Spinal Neoplasms.
Filter by:This research study is evaluating suitability of a delayed magnetic resonance imaging (MRI) in management of spine tumors. Currently the standard of care is obtaining an MRI scan in the early postoperative period (within 72 hours after surgery). The purpose of this study is to see if delayed MRI (2 to 3 weeks after surgery) is similar in quality to the earlier MRI. In this study patients will undergo 2 MRIs after the surgery instead of one MRI. Patients will have one MRI about 3 days after the surgery and one MRI about 2-3 weeks after surgery.
Intra-spinal canal tumors are the general term of primary tumors from spinal cord or various tissues in the spinal canal and adjacent to the spinal cord, while the metastatic tumors are those from other sites other than spinal canal. Intra-spinal canal tumor is one of the most common diseases in neurosurgery, and surgery is the most effective treatment. Conventional open surgery is required to remove the posterior structures of the spine, which would lead to fracture of the posterior tension band, soft tissue injury, spine instability, and even spine deformity. So it is very important to protect and rebuild the posterior tension band for the stability of the spine. The team of Dr. John P. Kostuik from the Department of Orthopedics and Neurosurgery, the Johns Hopkins University, firstly introduced minimally invasive surgery for cervical and lumbar degenerative disease. However it has not been applied to the treatment of intra-spinal canal tumors. To date, the microsurgery of intra-spinal tumor through the trans-Quadrant channel pathway has not been widely performed in clinical practice. The investigators performed the microsurgery of intra-spinal canal tumor through the trans-Quadrant pathway in some patients previously and succeeded in the surgical treatments. The investigators analyzed the clinical data retrospectively, including surgical incision length, the volume of bleeding during operation, post-operative drainage volume, post-operative out-of-bed time point, post-operative length of stay in hospital, and post-operative visual analog pain (VAP) score. The group of patients using microsurgical technique through trans-Quadrant channel pathway showed better outcome compared with the group of patients using conventional open surgery. This innovation of microsurgery showed fewer traumas and bleeding, more rapid recovery, better prognosis and more safety in practice. Since there are some limitations to the retrospective study, it is necessary to design a prospective randomized controlled trial of the treatment of intra-spinal canal tumors using microsurgical technique through trans-Quadrant channel pathway.
The goal of this clinical research study is to learn about the safety and accuracy of using MRI as a guidance system during laser ablation surgery of tumors that have spread to the spine.
This study will evaluate the efficacy of a newly developed serious game, SCI HARD, to enhance self-management skills, self-reported health behaviors, and quality of life among adolescents and young adults with spinal cord injury and disease (SCI/D). SCI HARD was designed by the project PI, Dr. Meade, in collaboration with the UM3D (University of Michigan three dimensional) Lab between 2010 and 2013 with funding from a NIDRR (National Institute on Disability and Rehabilitation Research) Field Initiated Development Grant to assist persons with SCI develop and apply the necessary skills to keep their bodies healthy while managing the many aspects of SCI care. The study makes a unique contribution to rehabilitation by emphasizing the concepts of personal responsibility and control over one's health and life as a whole. By selecting an innovative approach for program implementation, we also attempt to address the high cost of care delivery and lack of health care access to underserved populations with SCI/D living across the United States (US). H1: SCI Hard participants will show greater improvements in problem solving skills, healthy attitudes about disability, and SCI Self-efficacy than will control group members; these improvements will be sustained over time within and between groups. H2: SCI Hard participants will endorse more positive health behaviors than control group members; these improvements will be sustained over time within and between groups. H3: SCI Hard participants will have higher levels of QOL than control group members; these differences will be sustained over time within and between groups. H4: Among SCI Hard participants, dosage of game play will be related to degree of change in self-management skills, health behaviors and QOL.
The primary objective of this study is to demonstrate that the efficacy and safety of Spine fusion system manufactured in China is no inferior than imported product.
The purpose of this study is to evaluate the efficacy of hypofractionated stereotactic radiation treatments (SBRT) on children, teenagers and young adults malignant tumors.
Spinal cord trauma and the consequent paraplegia are possibly among the most devastating injuries in soldiers and during spine surgery, and are significant in the medical, social and financial aspects. Limited mobility, the need for assistance in all human activities, shame, and many medical complications related directly to the neural deficits make paraplegia an important target for prevention. Our study will evaluate the efficacy of Minocycline in two different groups: 1. Minimizing the neurological damage among trauma patients. 2. Preventing neurological damage through operation in spinal tumors patients. 2.OBJECTIVES The primary objectives of the trial are to determine: 1. Efficacy of administrating minocycline in minimizing the neurological damage among acute spinal cord injury patients and spinal cord tumors (primary and metastases) patients? 2. Efficacy of administrating minocycline at changing the natural history and rehabilitation of spinal cord trauma patients. 3. Safety of applying minocycline in spinal cord injuries patients and spinal cord tumors?
Metastatic malignant tumors comprise the vast majority of spinal tumors in adults. The most devastating complication of spinal metastatic disease (SMD) is invasion of the spinal canal and compression of the spinal cord or the nerve roots of the cauda equina, resulting in a clinical entity known as cord compression that manifests with progressive loss of motor function and sensation in the legs, as well as bladder and bowel incontinence. The treatment of spinal metastases is mostly palliative with the goals of improving or maintaining neurologic function, achieving local tumor control, and spinal stability. Most patients with spinal metastatic disease are currently treated effectively with radiation therapy and/or surgery with good results. There are however certain limitations in the current treatment of SMD. Radiation therapy has two important limitations: 1) if the targeted SMD is in close proximity the spinal cord, delivery of high radiation doses is contraindicated as it may cause radiation-induced damage to the spinal cord (myelopathy, and 2) there is limit on the cumulative amount of radiation dose, which means that recurrent tumors may not be amenable to repeat radiation therapy. As far spinal surgery is concerned, the main limitation is that some patients are not fit for surgery because of medical co-morbidities. This phase I clinical research trial will test the hypothesis that a new minimally invasive treatment called spinal intra-arterial chemotherapy (SIAC) can be safely applied in patients with SMD.
The goal of the first part of this clinical research study is to learn how to deliver more accurate radiation treatment of tumors in the spine. Researchers also want to learn how internal organs might move during radiation treatment. The goal of the second part of this study is to learn if it is safe to allow slightly more radiation to the normal esophagus when spinal tumors close by are being treated. This may result in better tumor control.
The purpose of this study is to determine if Proton Therapy can provide effective and safe treatment for Malignant Peripheral Nerve Sheath Tumors of the spine and Neurofibromas of the spine.