View clinical trials related to Digital Nerve Injury.
Filter by:Nerve injury in the fingers is a common injury and affects people of all ages. The treatment usually offered to patients is surgery and various types of rehabilitation. There is a lack of knowledge and research on how these injuries should be treated in the best way and how well sensory function can be restored after an injury. In this research project, we will investigate results after treatment for digital nerve injuries by entailing a randomised controlled trial allocating patients with isolated digital nerve injuries to either surgical repair or non-operative treatment in a cast. Primary outcome is digital nerve function as measured by 2-points discrimination at 1 year after treatment. Secondary outcomes include finger mobility, dexterity, handfunction, occurence of pain and anxiety and time on sick leave.
This is a 10-subject, 12-month follow-up, prospective, multi-center, open-label, single arm clinical trial designed to understand the initial performance characteristics and confirm the safety profile of the NeuraGen 3D Nerve Guide Matrix.
Case control study, investigating what hand function and sensory function do patients perform 3-10 years following digital nerve injury and repair. The aim is to investigate if hand function is more limited following digital nerve injury in the thumb, index- and little finger, compared to less unburdened sensory surfaces in the fingers. Secondary aim is to investigate the long term sensory function following digital nerve injury.
This is a registry and medical record based epidemiological description of patients with digitial nerve injuies in the Stockholm County, Sweden
The purpose of this study is to collect initial safety and device performance data of the TISSIUM's nerve coaptation device for the sutureless repair of digital nerve injuries of the hand in which there has been no substantial loss of nerve tissue. Additional clinical measures that assess device performance, use, and patient reported outcomes will be collected to guide future study design and potential device modifications.
Digital nerve injuries are frequent in a FESUM center (Federation Européenne des Services d'Urgences Mains), and they need to be repaired in order to reduce the risk of hypoesthesia and to prevent painful neuroma. Several animal studies have shown that Cholecalciferol improves axonal nerve regeneration and myelination. No study has ever been done on human subjects to evaluate the nerve regeneration after Cholecalciferol supplementation. Our hypothesis is that Cholecalciferol supplementation could improve axonal nerve regeneration and myelination after traumatic digital nerve injuries treated by microsurgical sutures and reduce the risk of hypoesthesia and neuroma.