View clinical trials related to Reflex Sympathetic Dystrophy.
Filter by:In this study, it is the procedure of spinal cord stimulation in Burst mode, its results and the experience of the patients that are evaluated.
The goal of this interventional study is to explore the use of InfraRed (FLIR) imaging in determining pain intensity and severity in newly diagnosed complex regional pain syndrome patients. The main questions it aims to answer are: Question 1: Can Infrared (FLIR) imaging be used to determine the severity of CRPS in newly diagnosed patients? Question 2: Is there any correlation with the quantification of 'the Δ thermal index value' measured by FLIR imaging with pain intensity (NRS) in newly diagnosed patients? Question 3: Is there any correlation between the quantification of 'the Δheat index value' measured by FLIR imaging between the two extremities with the severity (the severity score for CRPS) in newly diagnosed patients? Participants will have a picture of their foot taken using the forward looking infrared (FLIR) camera and answer questionnaires regarding their pain and complex regional pain syndrome (CRPS).
The goal of this basic science study is to learn about the brain mechanisms of chronic pain across different chronic pain syndromes in pediatric patients. The main questions it aims to answer are: - Are there shared and distinct brain systems engaged by different forms of pediatric chronic pain? - What are predictors of recovery from chronic pain? - What brain systems are associated with the spread of pain? For this study participants will undergo: - Functional Magnetic Resonance Imaging (fMRI) - Quantitative Sensory Testing - Psychological Assessments
Complex Regional Pain Syndrome (CRPS) is a "polymorphic joint and periarticular pain syndrome associated with various changes in sensitivity, vasomotor, sudomotor, muscular and trophic changes". The diagnostic criteria of the disease follow the Budapest criteria, namely (i) vasomotor disorders (temperature asymmetry, color changes), (ii) sudomotor/oedema (sweating changes, edema), (iii) sensory (hyperesthesia, allodynia, hyperalgesia) and (iv) motor/trophic (reduced joint mobility, weakness, tremor, dystonia, trophic disorders of skin, nails, hair). Of the many treatments, augmented reality mirror therapy (ARMT), is novel in substituting a virtual environment for part of the real environment. This type of device has never been studied from a clinical point of view in the treatment of upper limb CRPS, whereas fMRI and clinical dissertation studies have suggested an improvement in neuroplasticity. The aim of this study is to establish the clinical effects of ARMT on CRPS, and to evaluate its benefit within a conventional rehabilitation treatment (physiotherapy and occupational therapy).
The goal of this observational study is to compare thermal camera Forward Looking InfraRed (FLIR) images before and after spinal cord stimulation to evaluate the difference in sympathetic activity of the affected limb in patients with complex regional pain syndrome (CRPS). The main questions it aims to answer are: Question 1: Can Infrared (FLIR) imaging be used to monitor the sympatholytic activity caused by Spinal Cord Stimulation (SCS) in patients with CRPS? Question 2: Is there any correlation between the quantification of sympatholytic activity produced by Spinal Cord Stimulation (SCS) and measured by FLIR imaging with the outcome measures in patients with CRPS? Outcome measures include pain (NRS), CRPS Severity Score (CSS), Quality of Life (SF-36), and neuropathic pain score (painDETECT). Participants will have an image of their feet taken perpendicularly with a 1-inch space from all four sides using a FLIR T420 or T62101 camera with 320*240 resolution. Participants will also complete questionnaires about the average pain, CRPS severity, quality of life, and neuropathic pain.
Study investigating the potential benefit for chronic pain patients (CRPS and FM) using low-intensity focused ultrasound for neuromodulation.
Subjects with complex regional pain syndrome (CRPS) Type 1 will be randomized to receive repeated transcranial magnetic stimulation (rTMS) followed by rehabilitation or sham rTMS followed by rehabilitation. Treatment will last for 4 weeks, with the first week including 4 rTMS treatments and 2 rehabilitation treatments. Subsequent weeks will include 2 rTMS treatments followed by 2 rehabilitation treatments. Outcome measures will include pain ratings, PROMIS questionnaires, global rating of change, and grip strength or 1 repetition maximum leg press.
Chronic neuropathic pain is defined as pain caused by a lesion or disease of the somatosensory nervous system. It is highly prevalent, debilitating, and challenging to treat. Current available treatments have low efficacy, high side effect burden, and are prone to misuse and dependence. Emerging evidence suggests that the transition from acute to chronic neuropathic pain is associated with reorganization of central brain circuits involved in pain processing. Repetitive transcranial magnetic stimulation (rTMS) is a promising alternative treatment that uses focused magnetic pulses to non-invasively modulate brain activity, a strategy that can potentially circumvent the adverse effects of available treatments for pain. RTMS is FDA-approved for the treatment of major depressive disorder, obsessive-compulsive disorder, and migraine, and has been shown to reduce pain scores when applied to the contralateral motor cortex (M1). However, available studies of rTMS for chronic neuropathic pain typically show variable and often short-lived benefits, and many aspects of optimal treatment remain unknown, including ideal rTMS stimulation parameters, duration of treatment, and relationship to the underlying pain etiology. Here the investigators propose to evaluate the efficacy of high frequency rTMS to M1, the region with most evidence of benefit in chronic neuropathic pain, and to use functional magnetic resonance imaging (fMRI) to identify alternative rTMS targets for participants that do not respond to stimulation at M1. The central aim is to evaluate the pain relieving efficacy of multi-session high-frequency M1 TMS for pain. In secondary exploratory analyses, the investigator propose to investigate patient characteristic that are predictive of responsive to M1 rTMS and identify viable alternative stimulation targets in non-responders to M1 rTMS.
Complex regional pain syndrome is a painful syndrome often secondary to a traumatic lesion. Treatment is difficult, of long duration with variable outcomes. Patch of capsaïcin has been proposed as adjuvant to a multimodal treatment. Capsaïcin may act by its effect on transient receptor potential vanilloid 1. Efficacity and outcome studies with this treatment are lacking. The aim of this retrospective study is to evaluate pain intensity over time assessed by visual analog scale in patient with complex regional pain syndrome treated with capsaïcin patch in addition to their usual treatment.
This work will answer two critical questions: 1) Does intensive interdisciplinary pain treatment (IIPT) involving aerobic exercise help normalize pain processing in youth with chronic pain syndromes and 2) Are aerobic fitness levels and the ability to modulate pain inter-related? Currently, medications are ineffective for improving pain and disability in youth with chronic pain syndromes and identifying non-pharmacologic treatments, such as IIPT, that help strengthen the nervous system's ability to modulate or turn pain signals down will improve outcomes and quality of life for youth suffering from chronic pain. This study will help determine whether exercise based IIPT leads to physiologic improvements in how pain is processed, specifically if youth with chronic pain can better turn pain down during the offset analgesia test after an exercise based IIPT treatment, and also help elucidate the link between a child's aerobic fitness and their ability to modulate pain.