View clinical trials related to Peripheral Nerve Injuries.
Filter by:The purpose of this study is to evaluate the role of single dose 4-aminopyridine (4-AP) on the diagnosis of severing vs non-severing nerve injury after peripheral nerve traction and/or crush injury. The investigational treatment will be used to test the hypothesis that 4-aminopyridine can speed the determination of nerve continuity after peripheral nerve traction and/or crush injuries allowing the identification of incomplete injuries earlier than standard electrodiagnostic (EDX) and clinical assessment. Participants will be randomized to one of two groups to determine the order of treatment they receive (drug and placebo vs placebo and drug). Participants will undergo baseline testing for nerve assessment, receive either drug or placebo based on randomization and undergo hourly sensory and motor evaluation, EDX testing and serum 4AP levels for three hours after dosing. Participants will then repeat this with the crossover arm.
Peripheral nerve injuries are common and often associated with poor outcomes including incomplete repair, debilitating pain states and compromised function. Although nerve regeneration can be enhanced by brief electrical nerve stimulation at the time of or before surgical repair in rodents and humans, this approach is invasive. Acute intermittent hypoxia, breathing alternate cycles of regular air and air with ~50% normal oxygen levels (11% O2) is an emerging, promising non-invasive therapy promoting respiratory and non-respiratory muscle function in spinal cord injured rats and humans. Because the entire body is exposed to this therapy, it has the potential to globally impact the nervous system beyond just controlling respiratory and leg function in spinal cord injured patients. Thus, the investigators hypothesized that an acute intermittent hypoxia paradigm similar to that used for spinal cord repair will improve peripheral nerve repair in a manner akin to electrical stimulation, including its impact on expression of regeneration-associated proteins - a predictor of nerve growth states. In recent studies the investigators found this to be the case and now propose to continue these promising studies by performing a pilot clinical trial evaluating this form of treatment on patients with compromised hand function due to severe carpal tunnel syndrome. The goal is to improve nerve repair outcomes in the least invasive and optimal manner.
The aim of this study is to assess the efficacy of autologous fat graft in enhancing peripheral nerve regeneration. The investigators hypothesize that fat grafting will allow for faster and greater recovery of motor and sensory function following surgical repair of injured peripheral nerves.
To observe the Mid-term clinical effect of biodegradable conduit small gap tublization to repair peripheral nerve injury in multi-center.
Cortical activity during rest and with stimulation by functional magnetic resonance imaging will be investigated in patients with OBPI.
Cross-sectional and longitudinal analysis of the somatosensory phenotype, assessed by quantitative sensory testing (QST) and Information obtained by questionnaires to detect risk factors for neuropathic pain development and chronification in painless and chronic pain patients.
The purpose of this study is to determine safety and efficacy of pl-vegf165 ("Neovasculgen") for regeneration of peripheral nerve. Pl-vegf165 ("Neovasculgen") is the permitted in Russian Federation angiogenic medication that induce growth of new vessels and included in a complex therapy for patients with peripheral arterial diseases in Russia. It has also been shown to enhance nerve regeneration and muscle reinnervation in animals but these properties have not previously been studied in patients. Moreover, currently there is no method in clinical use to speed the rate of recovery after nerve injury. The objective of this study is to explore the ability of pl-vegf165 to benefit the treatment of patients with peripheral nerve injury. The investigators hypothesize that treatment with intraneural injections with pl-vegf165 after peripheral nerve reconstruction will accelerate nerve regeneration, reduce the period of denervation and improve muscle reinnervation and recovery in patients with peripheral nerve injury.