View clinical trials related to Pain, Back.
Filter by:The purpose of the study is to assess the feasibility of using information extracted from physiologic signals to automatically adjust stimulation in patients undergoing Spinal Cord Stimulation (SCS).
To achieve appropriate exposure for an anterior neck surgery (for example an Anterior Cervical Discectomy and Fusion or ACDF), patients are positioned supine with their neck extended. Due to being in this position, patients frequently complain of posterior neck stiffness and pain postoperatively in addition to the anterior incisional pain. This posterior cervical pain can be classified as myofascial pain. Cervical myofascial pain is thought to be the result of overuse or trauma to the supporting muscles of the neck and shoulders. Trigger point injections are one of the methods used to treat myofascial pain. The trigger point injection procedure is where a physician (typically an anesthesiologist) performs an exam of the patient neck and upper back and finds areas of point tenderness. The physician will then inject a small amount of numbing medication (such as bupivacaine) into the muscle or tissue in that area. Trigger point injections have been shown to be superior to botox injections or dry needling, and equivalent to physical therapy. However, these studies were performed on patients with chronic neck pain. There are no studies evaluating the effectiveness of trigger point injections on post anterior cervical surgery patients. At our institution, trigger point injections with local anesthetic are used as part of a multimodal pain control regimen for post-anterior cervical surgery patients. Our hypothesis is if the addition of trigger point injections to standard of care multi-modal post-operative pain control will decrease patients' myofascial pain, and thereby decrease the amount of narcotic pain medication used.
The objective of this study is to investigate and utilize spinal cord stimulation (SCS) as an effective approach to eliciting weight loss and potentially alleviating Type 2 diabetes mellitus (DM), as evidenced by increasing metabolism of adipose tissue.
The main objective is to quantify changes in diffusion and perfusion in the intervertebral disc and adjacent spinal muscle tissue of a spinal segment receiving a spinal manipulative or control intervention using diffusion-weighted magnetic resonance Imaging (MRI) (DWI, used for quantifying diffusion) and intravoxel incoherent motion MRI (IVIM, used for quantifying perfusion). Additional objectives are to test if clinical parameters such as pain and disability, radiological parameters, or pain-related inflammatory parameters in venous blood have predictive value in relation to these perfusion and diffusion effects, and if these effects correlate to clinical outcome. An additional objective is to test the repeatability of IVIM-MRI in assessing perfusion changes in musculoskeletal tissue, and, as a positive control, assessing diurnal changes in perfusion and diffusion parameters in spinal tissue of healthy controls.