View clinical trials related to Failed Back Surgery Syndrome.
Filter by:This study is an interventional prospective observatory single center trial, investigating the supraspinal effects of long term conventional SCS (60 Hz) and paresthesia-free high density SCS in failed back surgery syndrome (FBSS) patients with back and leg pain completed with resting state functional magnetic resonance (rs fMRI) and voxel-based magnetic resonance morphometry (VBM).
The purpose of this Post Market Observational Study is to monitor the effect of the Axium® SCS System in the management of chronic pain following surgical lumbar discectomy in subjects whom are routinely scheduled for treatment with the Axium® SCS System.
Each year, more than one million individuals worldwide are submitted to laminectomies, with a failure rate higher than 40%. Postlaminectomy epidural adhesion is implicated as a main cause of ''failed back surgery syndrome'' and associated with increased risk of complications during revision surgery. The postoperative epidural scar can cause extradural compression or dural tethering, which results in recurrent radicular pain and physical impairment. Several studies in the literature are signalizing that Low-Level-Laser-Therapy (LLLT) is proven to be an effective tool to assist the inflammatory process and wound healing, as well to prevent infection. Thus, the objectives of this project are to delineate and evaluate the LLLT effects in spinal surgery. A prospective randomized, controlled trial with a total of 48 patients who underwent laminectomy, were divided into 2 groups. In the first group, 25 patients received LLLT during the surgical procedure over dura mater, over subcutaneous and on the skin, as well as 24h and 72h post surgery. In the second group, 23 patients were induced to think they will be getting the same treatment, although the laser is not operating. In those groups, C reactive protein, Lactate Dehydrogenase and Creatine kinase were evaluated in the second and fifth days after surgery, digital temperature will be measured and scores in visual analogue scale will be used, 5 minutes pre and 5 minutes post Laser application. The drainage output was collected in the first three days following surgery in both groups. Interleukins were evaluated in interstitial infiltrate drained in 24h and 48h. The data was evaluated for normality and subjected to appropriate statistical analysis, in order to seek representation, as same as the level of significance of the studied samples.
The purpose of this study is to evaluate the effect of different spinal cord stimulation settings in the treatment of leg pain. Subjects will receive a randomized order of four different programmed stimulation settings for 3 weeks each followed by a fifth and final setting.
18-SMI-2013 is a post market, observational, questionnaire based study to assess the effectiveness of the commercially available Axium neurostimulator in the management of chronic pain following lumbar discectomy (Failed Back Surgery Syndrome)
The primary objective is to demonstrate the safety and efficacy of a non-awake implantation method (EMG neuromonitoring) of a SCS paddle lead as compared to an awake implantation method (with local anesthesia and patient feedback).This is a post-market, prospective, multicenter, parallel designed, non-randomized, non-blinded, 6-month study. A minimum of 50 patients will be implanted from up to 4 active sites, coordinated by a single lead investigator. Patients who have had a successful SCS trial and are indicated for permanent implantation will be approached to participate in this study prior to permanent implantation. Patients will be recruited and enrolled by physicians at any one of the involved sites. Each Investigator will only use one method (awake or non-awake) according to his/her typical practice. Patients will receive treatment from their enrolling physician.
The purpose of this study is to confirm long term efficacy and safety of the ProdigyTM neuromodulation system in the management of failed back surgery syndrome or chronic intractable pain of the trunk and/or limbs.
Electrical stimulation of the spinal cord (Spinal Cord Stimulation or SCS) for pain relief has been used for decades. It is used most commonly in patients with chronic neuropathic leg pain, after spinal surgery. Conventional neurostimulation is applied in frequencies of 30 to 60 Hertz (Hz) and perceptible paraesthesias are felt. Stimulation using higher frequencies with sub perception paraesthesias has recently challenged the conventional form of neurostimulation.The high frequency stimulation appears to show better pain relief for both back and limb pain in comparison to low frequency SCS, and may also to be effective in some subjects who did not respond to low frequency SCS.
Despite globally favourable outcomes of Spinal Cord Stimulation (SCS), a significant proportion of Failed Back Surgery Syndrome (FBSS) patients do not obtain adequate coverage of low back pain. Peripheral Nerve Stimulation (PNS) has obtained the European Conformity mark for the treatment of chronic refractory neuropathic pain and is now commonly used in some countries to target back pain. However, the potential value of combining SCS and PNS as "hybrid stimulation" remains poorly described with only isolated case reports or limited experience in various indications. The "CUMPNS" comparative randomized study is designed to demonstrate the potential analgesic efficacy of PNS in addition to previously implanted SCS, to treat the residual low back pain component pain in refractory FBSS patients.
The study will examine the feasibility of Direct Dorsal Column Stimulation using existing Stimulation Leads (Ad-Tech). Secondary endpoints will include pain relief, somatosensory evoked potentials (SSEPs), stimulator settings required, improvement in quality of life and use of pain medications.