View clinical trials related to Spinal Diseases.
Filter by:In this study we want to evaluate the clinical use of allogenic mesenchymal stem cells (MSC), obtained from bone marrow of healthy donors, for treatment of Degenerative Disc Disease (DDD). The trial is based in previous results with autologous MSC (Orozco et al., Transplantation 92: 822-828; 2011). Here we propose a phase I-II trial, prospective, randomized, blinded, and controlled for the treatment DDD using MSV, a Good Manufacturing Practice (GMP)-compliant expanded bone marrow MSC (MSV, Investigational medicinal product Num. 10-134). The assay consists of two arms with 12 patients each one. Patients in the experimental arm will be given a single intra-discal transplantation of MSV (25 millions in 2 ml). Control patients will be infiltrated in the paravertebral muscles close to the lesion with 2 ml of 1% mepivacain. We shall follow the evolution of pain, disability and quality of life as well as disc fluid content by Magnetic Resonance Imaging (T2-calibrated).
The purpose of this study is to assess the pain reduction rate after 8 weeks treatment of NORSPAN® from baseline. And secondary purpose are: pain reduction rate after 4 weeks treatment from baseline(week 0) the EQ-5D, the pain and sleep questionnaire, physician's overall satisfaction subject's overall satisfaction, and safety
The purpose of this study is to assess the safety and efficacy of Subcutaneous Nerve Stimulation (SQS) (also known as Peripheral Nerve Stimulation [PNS]) in the reduction of chronic, intractable post-surgical back pain in adults.
Study Objectives: 1. Primary objective - To assess the pain reduction after 8 weeks treatment from baseline (week 0) 2. Secondary objectives - To assess the pain reduction after 4 weeks treatment from baseline (week 0) - To assess the EQ-5D - To assess physician's overall satisfaction - To assess subject's overall satisfaction - To assess safety
The purpose of this study is to investigate the effect of CAM treatments consisting of herbal medicine, Chuna manual therapy, pharmacoacupuncture, acupuncture on lumbar and cervical spine pain patients due to spinal disease.
This study will collect clinical and radiographic data on the Freedom Cervical Disc to monitor the device's safety and performance as part of a post-market evaluation.
The purpose of this study is to report the radiographic, clinical, and functional outcomes of a consecutive series of patients diagnosed with single or bilateral degenerative disc disease between L4 and S1, that have been treated with an anterior lumbar interbody fusion (ALIF), anterior only surgical approach, and InQu Bone Graft Extender and Substitute for bony fusion and instrumentation. Patients that decide to undergo an Anterior Lumbar Interbody Fusion (ALIF) surgery [a surgical procedure that joins two or more lumbar vertebrae (small bones of the spine) together into one solid bony structure by approaching the spine through the abdomen (front of the body) and placing a bone graft in between the vertebral bodies where the disc usually lies], are invited to participate in an orthopaedic research study. This study will compare patients that have been treated with an anterior lumbar interbody fusion using InQu Bone Graft Extender & Substitute to published data for a stand alone spinal fusion surgery, where InFuse bone graft is placed between the transverse processes [small bony projections off the right and left side of each bone in your spine] of the affected vertebrae. X-rays, daily activities, and how patients are doing will be evaluated at specific time points during this study. The hypothesis of this study is that patients diagnosed with degenerative disc disease treated with an anterior lumbar interbody fusion, anterior only surgical approach (incision through the abdomen), using InQu Bone Graft Extender and Substitute and instrumented fixation have comparable radiographic (x-rays), functional (daily activities), and clinical (how the patient is doing) outcomes when compared to published data for use of InFuse in stand-alone fusion.
The purpose of this study was to examine the effect of prolonged sitting duration and three different sitting postures (erect, slumped, and slouched sitting postures) on spinal nerve root function by measuring the soleus (SOL) H-reflex amplitude. In addition, the pressure under the ischial tuberosities during the three sitting postures were assessed and correlated with the SOL H-reflex amplitude.
B cells are known to play an important role in auto-immune diseases by activating T cells, secreting inflammatory cytokines and autoreactive antibodies. However, a sub-type of B cells named regulatory B cells or Bregs has recently shown capacities to prevent or cure arthritis in mouse models. Bregs have also been identified in humans.
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.