View clinical trials related to Neuropathic Pain.
Filter by:The purpose of this study is to determine if playing a virtual reality walking game can help improve neuropathic pain in adults with chronic spinal cord injury.
Feasibility study with 25 patients investigating the effect of cryoneurolysis on persistent cutaneous neuropathic pain after surgery and trauma. All patients receive active treatment (cryoneurolysis). The study design is unblinded, non-randomized, non-controlled.
Neuropathic pain is particularly difficult to treat with classic first-line drugs. Neuromodulation techniques using repetitive transcranial magnetic stimulation (rTMS) are useful alternative, but there is a need to improve their analgesic effect.Virtual reality mirror therapy has shown the capacity to alleviate pain and may be easily coupled with rTMS.The present project will investigate in individuals with neuropathic pain the effects of the rTMS coupled with virtual reality mirror therapy.
The investigators want to examine trigger point injections of local anesthetics, in patients with post operative neuropathic pain, determine changes in sensory disturbances such as allodynia, hyperalgesia and thermal sensitivity and examine whether trigger point injections will attenuate pain in rest and activity.
Neuropathic pain is common in limb amputees and causes reductions in activity and participation as well as impaired quality of life. Some of these pains lead to the diagnosis of a responsible lesion and to precise and effective treatments (amputation neuroma pains, for example), whether they are etiological or symptomatic. Other pains of a neuropathic character remain totally or partially resistant to symptomatic treatment. Their appearance, intensity, duration and frequency vary depending on the amputee. Old scientific data confirmed by modern imagery indicates a process of reorganization of cortical areas by multimodal afferents. This reconstruction, coherent or not of the body diagram, is at the genesis of sensations, normal or not, in the amputee. Early plurimodal reassignment constitutes the founding principle of the rehabilitation of amputees: tactile afferents, visual afferents, motor afferents, proprioceptive afferents. Rehabilitation techniques and early fitting contribute to this reafferentation and to the functional integration of the fitting and to the quality of life of the amputee. Scientific work by Katz et al, and experiences of amputees relieved by the application of local heat or stay in hot climatic zones show that the thermoregulation of the residual limb could be of interest. It has been shown that these pain conditions are often related to a reduction in superficial blood flow to the distal part of the stump. The physiological response of the body to variations in outside temperature physiologically consists in the regulation of skin temperature. The goal seems to keep the body in a so-called "thermal neutrality" zone, substantially between 30 ° C and 33 ° C, by vasodilation or vasoconstriction of the superficial blood vessels depending on exposure to cold or heat. An innovative medical device has been developed for a regulated thermal re-afferentation of the residual limb, during and outside the wearing of the prosthesis. The Connected Caloprosthesis Kit (CCK®) includes a connected sleeve put in place when wearing the prosthesis (interface between the skin and the socket) and a connected sock to put in place outside of wearing the prosthesis. These 2 devices include an autonomous heating and regulation process, which maintains the amputation stump in the area known as "skin thermal normality". This device is non-invasive. It includes a silicone sleeve and a heating sock for femoral or tibial amputee patients equipped with an expandable textile warmer, a flexible micro-temperature sensor and a 4-conductor extensible cable connected to a thermoregulation box worn as a belt which regulates the temperature of the stumps in the thermal neutrality zone between 30 and 33°C. In order to assess the therapeutic effect of CCK®, given the heterogeneity of the population and the small number of patients eligible for the study, the Single Case Experimental Design (multiple baselines design) seems to us to be the methodology the most suitable: the principle is to evaluate intensively and prospectively a small group of subjects, each case being its own comparator. The methodology is defined a priori including systematic observations and repeated measurements at a defined frequency before, during, or even after the intervention introduced in a sequential and randomized manner. The data analysis can be individual and therefore patient-specific, but also group with the calculation of the size of the therapeutic effect and the calculation of significance. This design therefore makes it possible to overcome the difficulties encountered during randomized controlled trials: having to have a large number of subjects necessary to show a significant difference in the medical device and to have a homogeneous population. This methodology is therefore not a description of a clinical case but an alternative methodology to randomized controlled trials. In fact, it is considered by the Oxford Center for Evidence-Based Medicine 2011 to be level I, like the randomized controlled trials. The proposed clinical study therefore has a dual objective: practical as a new treatment therapy by validating this medical device and theoretical, supporting the pathogenic model of painful sensations in amputees
Doctors sometimes treat chronic pain with devices that send mild electrical currents into the spinal cord. This type of treatment is referred to as neurostimulation. A common form of neurostimulation therapy is spinal cord stimulation (SCS). In this study, researchers want to learn more about how SCS affects pain processing and relieves pain. The researchers will examine multiple forms of SCS in chronic pain patients who are receiving SCS from their own doctors as part of their standard of care. During the study, participants will be asked to complete a variety of evaluations at certain time points.
The purpose of the present study is to evaluate the role of peripheral afferent input for spontaneous pain in painful diabetic polyneuropathy
Improving the anesthesiology management for surgical correction of spinal deformations with introducing the diagnostic methods and treatment strategy of acute pain, preventing the evolution of chronic pain. Development and implementation in clinical practice perioperative intensive care protocols for surgical correction of spinal deformities.
The objective of this study is to assess the effect Spinal Cord Stimulators have toward improving vascular changes of diabetes mellitus in patients eligible for SCS placement based on their condition of painful diabetic neuropathy; we will evaluate improving their disability and quality of life, improving micro-circulatory changes induced by Diabetes Mellitus (DM), improving macro-circulatory changes induced by DM and improving arterial stiffness of the vessels of the lower extremity.
The purpose of this study is to evaluate the efficacy and safety of Praga formulation in the treatment of neuropathic pain.