View clinical trials related to Peripheral Nerve Injuries.
Filter by:After nerve injury and facial palsy, many patients have permanent muscle and sensory dysfunction. Electrical stimulation (ES) of injured nerves may speed up axon growth and improve recovery. This study will assess if ES accelerates motor axon regeneration and improves muscle recovery in patients undergoing two-staged facial reanimation for facial palsy. This study of ES in these patients will investigate: i) nerve regeneration over long distances; ii) direct evidence of changes in nerve regeneration with nerve samples from the second procedure; and iii) changes in functional outcomes in a patient population with much less variability. Our study will provide evidence about the effect of ES in improving outcomes in patients with nerve injuries.
The purpose of this clinical investigation is to confirm the medium- and long-term safety and performance of the chitosan-based nerve guide (Reaxon® Nerve Guide) in comparison to an autologous nerve graft to bridge nerve defects in the finger.
The main objective of the intervention in the study is devise feasibility using high-count microelectrode arrays implanted into peripheral nerves of patients with limb amputations or peripheral nerve injury. These microelectrodes will be custom-made and are not available for commercial distribution. The investigators hypothesize that recording neural signals from a large number of microelectrodes will provide selective motor information in high enough numbers to allow control over future artificial devices with many moving parts, i.e. artificial limbs with shoulder, elbow, wrist, and/or individual fingers that move. These studies will also investigate to what extent microstimulation of nerve fibers can provide sensory feedback from a prosthetic limb. The investigators will also conduct up to three acute surgeries where a Utah slanted Electrode Array (USEA) will be implanted in volunteers who are about to undergo limb amputations. These acute implantations will provide Dr. Hutchinson with human surgical experience in implanting USEAs and evaluating the containment system we will be using to immobilize the implanted USEA in the nerve.
The purpose of the study is to determine the efficacy of etoricoxib on pain patients. The investigators assume that patients with neuropathic pain will have greater pain relief then patients on placebo.