View clinical trials related to Nerve Injury.
Filter by:It is estimated that up to 5% of all admissions to level one trauma centers have a peripheral nerve injury. These peripheral nerve injuries may have devastating impacts on quality of life and require months or years to regain function. Neurotmesis, or peripheral nerve transection, is a common injury, with singly cut nerve lacerations accounting for over 60% of the peripheral nerve surgical interventions in civilian studies. For recovery to occur in these patients, axons must grow from the site of repair to the target tissues, a length of up to a meter in humans. By that time, revisional surgery may not be a viable option due to the onset of irreversible muscle atrophy - a transected nerve is estimated to induce a loss of achievable function of approximately 1% for every 6 days of delay. The scenario is even worse for more proximal nerve injuries, such as those that occur in the brachial plexus. The investigators aim is to longitudinally assess diffusion tensor tractography (DTI) in order to optimize, validate, and translate the ability of DTI to monitor and, more importantly, predict nerve regrowth following trauma and surgical repair. The overall objective of this study is to evaluate the ability of (DTI) to monitor and, more importantly, predict nerve regrowth following crush or cut with surgical repair. The investigators hypothesize that the additional information available via DTI will improve our ability to monitor and predict nerve regrowth following surgical repair or severe crush injury, guiding clinical management either toward or away from surgical intervention.
Based on limited published epidemiological data, up to an alarming 1 in 50 surgical inpatients die within 30 postoperative days. Based on our own data from the B-Unaware (NCT00281489) and BAG-RECALL (NCT00682825) clinical trials, 30-day postoperative mortality among high-risk surgical patients is comparable to this at Barnes-Jewish Hospital, and 1-year mortality among high-risk surgical patients may be as high as 10%. Short- and intermediate-term postoperative mortality is therefore a pressing public health concern. Similarly, postoperative major morbidity - including delirium, stroke, myocardial infarction, atrial fibrillation, blood clots, renal dysfunction, wound infection, pneumonia, respiratory failure, loss of functionality, and chronic pain - occurs commonly and affects a substantial proportion of surgical patients, critically ill patients and patients undergoing procedures for chronic pain. Many factors associate strongly and independently with postoperative mortality and major morbidity: patient age, functional status, comorbid medical conditions, and duration and invasiveness of surgery, among others. It is a strategic priority to identify pre- and intraoperative risk factors that are subject to modification.
Foot drop deformity is a life limiting condition characterized by loss of ankle dorsiflexion and eversion. Main condition leading to drop foot condition include irrecoverable muscle and nerve injuries, poliomyelitis, drug poisoning, strokes, cerebral palsy, Charcot - Marie - Tooth disease, meningomyelocele, club foot, Friedreich's ataxia and Leprosy (1-4). Anterior transposition of Posterior tibialis tendon (PTT) is the gold standard for surgical restoration of functional dorsiflexion of a permanently paralyzed foot (1, 4-10). Two methods of rerouting the posterior tibialis tendon have been reported, one through the interosseous membrane i.e. Interosseous route (7, 10) and second subcutaneously around the medial side of tibia i.e. Extramembranous or circumtibial route (11-13). Both these techniques have been widely described in literature (4-16) and are being extensively used in surgical management of foot drop. The selection of technique depends on surgeon choice and patient factors. There is a clinical equipoise with regards to these two techniques of Tibialis posterior tendon transfer and through our study we aim to compare the clinical and functional outcomes of these two techniques. There are no studies in literature which compare the clinical and functional outcomes with regards to both these methods. Although there are many studies to demonstrate the functional and clinical effectiveness of the respective procedures, there is a paucity of clinical trials comparing these two surgical techniques with regards to clinical and functional outcomes. Furthermore there are no head to head clinical trials to compare the outcomes with regards to these two methods of Tibialis Posterior tendon transfer (Medline search dated 03/03/ 2012) we propose to compare the clinical and functional outcomes with regards to the two techniques i.e extra membranous and Interosseous technique of Tibialis Posterior tendon transfer performed in patients with foot drop as a result of nerve palsy. Through our prospective randomized trial we aim to answer the research question, whether one method has any superior outcome over the other?
The aim of the current report is to investigate the feasibility of transferring the free dorsal digital flap, including both dorsal branches of the proper digital nerves (PDNs), to reconstruct the volar soft tissue defect of digits. Sensory restoration of the reconstructed digit was evaluated via static two-point discrimination (2PD). The range of motion (ROM) of the donor middle and ring fingers was measured.
A proper digital nerve (PDN) defect in the thumb can produce partial or complete sensory loss which can result in functional disability. This article reports the treatment of the thumb PDN defect using a pedicled nerve graft harvested from the dorsal branch of the PDN. Fourteen patients with the thumb PDN defect underwent a new surgical procedure in which the pedicled nerve graft was used to bridge nerve defect. For comparison, the investigators also collected a consecutive series of 21 patients with thumb PDN defects treated using a nonvascularized sural nerve graft. This study was designed to evaluate the efficacy of pedicled nerve grafting for PDN defects in the thumb.
Specific proteins and other signaling molecules are increased and decreased following nerve injury. Some of these are important in producing pain or explaining why pain persists after traumatic nerve injuries or in disease states such as diabetes. In this study, the investigators hypothesize that it is possible to detect changes in specific signaling molecules and that these will provide insights into novel treatment strategies. The patients to be included are those who are undergoing the removal of tissue during surgery. The tissues that would otherwise be discarded will be included in the study as appropriate.