View clinical trials related to Complex Regional Pain Syndromes.
Filter by:The purpose of this study is to determine whether the EGFR-inhibitor cetuximab is better than placebo for the treatment of neuropathic pain.
This clinical trial is being conducted to demonstrate the efficacy of neridronic acid in the treatment of pain associated with complex regional pain syndrome type I (CRPS-I). The trial is divided into 3 periods: a 60-day enrollment period, a 12-week trial period, and an extended follow-up period with visits at Month 6, Month 9, and Month 12. The extended follow-up period will be terminated for all participants after the last participant enrolled completes their Month 6 visit (Visit 9). The double-blind will be maintained throughout the 12-week trial period and extended follow-up period.
Complex Regional Pain syndrome Type I (CRPS-I) is a chronic progressive disease. Patients experience dramatic decline of overall well-being, despite the absence of any apparent physical cause. The main symptoms are hypersensitivity to pain (hyperalgesia) and experiencing normal tactile stimulation as painful (allodynia) in the absence of peripheral nerve damage. The debate on the aetiology of CRPS-I is still open. The therapy offered to CRPS-I patients is diverse and can involve invasive and non-invasive interventions. Current (inter)national guidelines recommend physiotherapy as the best non-invasive treatment for rehabilitation. Recently, cognitive and behavioural Graded Exposure in Vivo (GEXP) therapy aimed at reducing pain-related fear was found to be effective (De Jong et al. 2005), and more effective than standard physical therapy (ReMOVE study, articles in preparation). By reducing pain-related fear EXP might reconcile motor output and sensory feedback. Another type of pain is lower back pain (LBP), which affects 70% to 85% of general population, but usually heals within 12 weeks in 90% of patients. The rest of the patients suffer from intractable, chronic LBP despite no evident organic abnormality. Research shows that also in these patients cognitive and behavioural aspects of pain are important and related to physical performance and self-reported disability (Vlaeyen et al., 2000). Several studies have demonstrated the success of GEXP in this patient group: GEXP resulted in improvements in pain-related fear, catastrophizing, performance of daily relevant activities, and in pain intensity (Leeuw et al., 2008). This study aims to investigate the effect of GEXP on brain regions involved in the processing of harmless tactile stimuli in CRPS-I and CLBP patients, as well as its effect on tactile discrimination thresholds. We hypothesize that GEXP will induce 1) an improvement of tactile discrimination thresholds, 2) a functional reorganization of primary and secondary somatosensory cortex (in regions related to the affected limb in CRPS-I; and to the back in LBP), 3) changes in activation of emotional brain circuits during non-noxious stimulation, 4) changes in resting state connectivity between emotional and sensory brain areas, 5) changes in measures reflecting white matter integrity. No systematic changes are expected in the healthy controls. Patients diagnosed with CRPS-I and CLBP will participate in a Magnetic Resonance Imaging (MRI) experiment. In this observational study, we examine the effects of GEXP treatment that all patients receive as part of usual care. Anatomical as well as diffusion-weighted and T2*-weighted (Blood oxygenation level dependent) MR images will be acquired. The study has a 3x4 split plot design with group (CRPS-I patients and CLBP receiving GEXP treatment / healthy controls) as between-subjects variable and time (pre-, during, post-treatment and follow-up) as within-subject variable.
Study designed to compare the conventional stimulation programming versus the high frequency stimulation programming of the spinal cord stimulator for subjects who already have a spinal cord stimulator.
This study aims for a better understanding of the pathophysiological mechanisms of the complex regional pain syndrome (CRPS). This will be done by testing the quantitative sensory testing, the remote ischemic conditioning, the conditioned pain modulation (CPM) and the analysis of the heart-rate variability in patients with CRPS and a control-group. We hypothesize decreased conditioned pain modulation, less effects of remote ischemic conditioning and an affection of the heart-rate variability in patients with CPRS.
This pilot study will test a new therapy, somatosensory rehabilitation, for the painful sensitivity experienced by persons with nerve injuries and/or complex regional pain syndrome (CRPS). Several methods for measuring pain and sensitivity that emphasize the person's evaluation of their own symptoms and the impact of these symptoms on their daily activities will also be tested to make sure they are consistent and accurate. Previous research has suggested one of the assessments may also be used to assist in the identification of CRPS: this simple test will be evaluated to see if it can accurately identify persons with this disorder (for which there is currently no diagnostic test). Together, this will improve treatment of CRPS through early, accurate diagnosis and the ability to measure important changes in this painful condition, and set up future studies for this new rehabilitation treatment method.
The purpose of this pilot study is to test the durability of response to Transcranial Magnetic Stimulation (TMS) for the symptoms of Complex Regional Pain Syndrome (CRPS). The investigators will test various methods of TMS for varying lengths of time in a pilot study to investigate what the clinical impact.
At Saint-Antoine's hospital, in CETD a multidisciplinary team takes care of patients with chronic pain. Free-drug techniques are available to reduce their consumption of analgesics. This study is to assess the relief obtained by the simultaneous combination of these two techniques: transcutaneous electrical nerve stimulation and hypnosis.
The purpose of this pilot study is to test whether Transcranial Magnetic Stimulation (TMS) may alleviate the symptoms of Complex Regional Pain Syndrome (CRPS). The investigators will test various methods of TMS in a small pilot study to investigate what methods may have clinical potential. This is a small pilot study to determine feasibility and signal to potentially inform future trials.
The aim of the study is to investigate the correlation between increased bone metabolism in the 3 phase bone scintigraphy (TPBS) and decreased pressure pain thresholds in patients with complex regional pain syndrome (CRPS) of the upper limb and a non-CRPS-group. The investigators assume that there will be a significant correlation between the investigated values in the CRPS-group whereas the non-CRPS-group shows no significant correlation.