View clinical trials related to Peripheral Nerve Injuries.
Filter by:PNI (Peripheral Nerve Injury) occurs in 5-15% of patients in cardiac surgery. So far, the mechanism of injury has never been researched. In this study, we will compare minimally invasive cardiac surgery with conventional cardiac surgery using a novel portable SSEP device to pinpoint the mechanism and timing of PNI during cardiac surgery.
Brachial plexus block is a common regional anesthesia technique which is performed by anesthesiologists to anesthetize the arm for surgery. In this study, we are investigating the relationship between the nerve conduction (induced by brachial plexus block) and the patients' symptoms before and after the brachial plexus block. We will attach a nerve conduction device (SSEP device) to monitor the patients' arm conduction and we will assess the patients' symptoms simultaneously.
To observe the Mid-term clinical effect of biodegradable conduit small gap tublization to repair peripheral nerve injury in multi-center.
Traumatic injury to the peripheral nerves is most common in the young population with high associated costs to the patient, as well as to society. These range from acute healthcare cost to loss of productivity and rehabilitation. Despite major efforts in improving surgical technique, functional outcome has not significantly improved in the past thirty years. Irreversible denervation, atrophy of target muscles, and deranged sensation secondary to slow or aberrant axonal outgrowth remains a significant challenge. Although pre-operative conditioning of the injured peripheral nerve with electrical stimulation has shown promise in animal studies, it has not been tested in humans. In animal studies, pre-operative conditioning with electrical stimulation (ES) of the injured peripheral nerves promoted peripheral nerve regeneration in both sensory and motor fibres. We propose to conduct a clinical trial comparing 3 different treatments of complete digital nerve laceration before and after surgical repair. Participants will be randomized to one of three treatment arms: i) pre and post operative electrical stimulation, ii) pre-operative electrical stimulation alone , or iii) control group that receives sham pre and post-operative electrical stimulation. We will evaluate the effect of pre-operative electrical stimulation on axonal regeneration, as well as determine whether there is an additive effect of pre and post-operative electrical stimulation on sensory nerve axonal regeneration.
The implementation of early sensory re-education (SR) techniques, aimed to preserve the cortical hand area, such as the use of audio-tactile interaction, becomes an important strategy to obtain also a better sensory function. The aim of this study was to investigate sensory function outcomes (threshold monofilaments, two-point discrimination test, STI and DASH) and cortical responses (fMRI) in patients submitted to an early protocol of SR of the hand with a sensor glove model. After surgical repair of median and/or ulnar nerves, 17 participants were divided into two groups: the training group, trained on the protocol with the sensor glove model, and the control group, untrained. After six-month follow-up, no difference was observed between groups, related to sensory function, especially tactile gnosis. Despite this, the early training with this sensor glove model seems to provide some type of cortical audio-tactile interaction, contributing to previous studies that focus in early SR of the hand using the integration of different sensory modalities.
This study intends to compare the patients with pain with those who underwent same procedure without developing pain. The patients with pain and without pain will be further analyzed in respect to clinical differences, biomarkers and genetical differences.
The aim of this clinical trial is to assess the efficacy of tesamorelin as a therapy for peripheral nerve injuries. The investigators hypothesize that treatment with tesamorelin will allow for faster and greater recovery of motor and sensory function following surgical repair of injured peripheral nerves. Patients with upper extremity nerve injuries will be randomly assigned to receive either the drug or a placebo (inactive drug). A number of tests for nerve regeneration, muscle function and sensation will be performed every month for a total of 12 months. Outcomes in the patients treated with tesamorelin will be compared to outcomes in patients who received the placebo to determine the effectiveness of tesamorelin as a therapy for nerve injuries.
This study evaluates the impact of extracorporeal shock wave treatment after microsurgical coaptation of finger nerves. Participants will be randomized into two treatment groups with different settings and a sham group. The participants will thereafter followed-up in a prospective, double-blind study design.
The study examines pain-related evoked potentials (PREP) in patients with peripheral nerve injuries. Since previous studies found altered latencies and amplitudes of PREP in generalized polyneuropathies, e. g. HIV-polyneuropathy and fibromyalgia, this study investigates if these alterations are detectable in unilateral peripheral nerve injuries as well.
Neuromas are frequent after trauma and surgery, including amputation and can be identified by high-resolution ultrasound. The role of neuromas as the cause of neuropathic pain is uncertain. In this observational cohort study, the investigators wish to explore if the prevalence of neuromas are higher in patients with pain after peripheral nerve injury and amputation, than in patients with the same conditions but without pain.