View clinical trials related to Spinal Disease.
Filter by:The primary objective of the Spine Registry is to enhance the understanding of spinal disease and treatment of spinal disease with the goal of guiding treatment options.
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.
The objective of this pilot study is to determine if degenerative spinal disorders such as acute radiculopathy, myelopathy, stenosis, or disc and facet disease cause detectable alterations in Substance P levels in saliva, serum and cerebrospinal fluid. If this pilot study shows a correlation between Substance P levels and pain associated with degenerative spinal disorders, then a larger study will be initiated to determine the feasibility of using Substance P levels in the diagnosis and treatment of degenerative spinal disease.
Phase 1 - Optimization Phase: Primary Objective: The primary objective of Phase 1 of this study is to determine the time point at which maximal Circulating Tumor Cell Burden (CTCB) occurs following standard vertebroplasty and Kyphoplasty procedures relative to baseline CTCB. Phase 2 - Comparison Phase: Primary Objective: The primary objective of Phase 2 of this study is to determine the change in CTCB from baseline to post-treatment as measured using the CellSearchâ„¢ Assay and to compare the average change between treatment groups with and without the use of the Cavity SpineWand. Secondary Objectives: - To determine the change in self-reported pain level from baseline to post-treatment as measured using the visual analogue scale (VAS) for spine pain and to compare the average change in pain level between treatment groups. - To determine the change in pain status from baseline to post-treatment as measured using the Brief Pain Inventory (BPI) and to compare the average change in pain status between treatment groups. - To determine the change from baseline to post-treatment in the M.D. Anderson Cancer Center Symptom Inventory (MDASI) and to compare the average change between treatment groups. - To determine the change from baseline to post-treatment in time to walk a 50-foot distance and to compare the average change between treatment groups.
PET imaging of activated microglia offers a tool of investigation of a range of brain diseases where neuroinflammation is a component. Amyotrophic lateral sclerosis is the most frequent motoneuronal disease in adult. This study was designed to explore the feasibility of molecular imaging modality by Positron Emission Tomography using 18F-X as an in vivo marker of activated microglia for the assessment of neuroinflammation in amyotrophic lateral sclerosis. PET may help in the diagnosis of the disease and, further, may allow assessment of the efficacy of antiinflammatory treatment.
The purpose of this study is to determine whether the early identification and more precise intervention of operating room (OR) patient fluid administration optimization using arterial pressure-based cardiac output (APCO) yields comparable patient outcome as fluid administration optimization using a global standard care method.