View clinical trials related to Neurological Disorder.
Filter by:During surgery, blood leaking from damaged blood vessels spread to the periorbital area may cause periorbital edema and ecchymosis after anterior craniotomy. This study was carried out to determine the effects of the cold application and the local heparinoid on periorbital edema and ecchymosis after craniotomy.
NIH Precision Medicine Initiative, started in May 2018, will enroll one million people through an online portal. It hopes to identify genetic variants affecting a variety of human phenotypic outcomes. A giant set of data like this may enable an association of genetic variants with a certain phenotype. However, the association is often compromised due to the collection of phenotypic data that is not well controlled or standardized creating "noisy" data. These phenotypic "noises" can be largely eliminated in clinical studies with stringent criteria and standardization of outcome measurements. In this study, by looking mainly at genetic information and nerve conduction speed, we hope to eliminate the extra "noises" in the data set. Eliminating the extra "noises" should allow us to be able to determine if there are genetic differences between neurological disorders and healthy controls, and if these genetic differences can be attributed to the speed of the nerve conduction.
The recovery of the function of the hand is one of the most important aspects for patients who have suffered the consequences of neurological damage. Currently there are numerous therapeutic procedures aimed at rehabilitation that have scientific evidence such as restrictive therapy. However, dysfunction of the upper limb has an impact on the whole body that is not always taken into consideration.
In patients undergoing spine surgery, spinal nerve roots and spinal cord are vulnerable to surgical insults especially for instrumentation and may lead to long term sequelae. The incidence of clinical peripheral neuropathy after cervical spine surgery has been reported up to 30%. Intraoperatively, spinal cord and nerves function can be monitored using electromyography (EMG) and somatosensory evoked potentials (SSEP) and thereby, intervention can be made to potentially reduce the incidence of adverse neurological sequelae. However, conventional EMG and SSEP monitoring requires presence of a trained EP technician, use of needle electrodes and currently bulky EP equipment and is thus not practical for routine clinical usage. In this study, the invesitgators will assess the clinical feasibility of using a novel miniaturized and automated EMG/SSEP device (EPAD® 2.0) in spine surgical patients.
The study is designed to collect data that will aid in future scientific and engineering exploration of correlations between clinical assessments and BNA scores. The results are primarily intended for scientific inquiry and engineering development purposes, and may be used in future regulatory submissions.
Cardiovascular autonomic neuropathy (CAN) has been shown to be an important risk factor for cardiac diseases, particularly in diabetes. CAN may be investigated by a battery of laboratory cardiovascular autonomic reflex tests(initially described by Ewing). First screening for CAN (as proposed in diabetic patients) can be performed by assessing heart rate (HR) response to deep breathing, blood pressure (BP) and HR response to a 5 minutes stand test
Participants with neurological disorders will be recruited to complete sessions of virtual reality (VR) immersion. VR has been shown to have therapeutic benefit in certain patient populations and requires further clinical study to determine the extent to which VR can be used to rehabilitate and reduce symptom burden. This study seeks to pilot newly developed VR methods and collect preliminary data in order to support research grants and inform larger clinical trials. Additionally, this proposed study will explore the tolerability and preliminary efficacy of Virtual Reality (VR), specifically to determine whether VR can acutely reduce the severity of symptom burden caused by neurological disorders.
The importance of physical activity and exercise-based interventions in neuro-orthopaedic rehabilitation is undisputed. Yet, patients and clinicians do not implement minimally required doses of physical activity in standard rehabilitation programs. This is partly due to intrinsic factors such as motivation, or due to physical condition that prevent any kind of exercise. In most cases, however, it is owed to limited time spent with therapists who would be able to supervise and apply the required doses to induce any potential exercise effects. Methods to semi-autonomously exercise with high motivation and continuous feedback would complement existing therapies and allow adherence to minimal dose recommendations. For this study, a prototype of a new portable training solution for intensive walking exercise with built-in sensor-technology and a smartphone interface will be tested regarding its usability and its efficiency in a clinical setting.
This study is designed to address the evidence gaps in a real-world setting and help patients with MG choose treatments that are best suited to them. It is a prospective, multicenter observational cohort study of comparative effectiveness of MG treatments, with a patient-centered primary outcome measure, to guide clinicians, patients and payers regarding the choice of treatment options for this chronic and serious disease. Primary: To compare the effectiveness of azathioprine (AZT) and mycophenolate mofetil (MMF). Secondary: To compare the outcomes in patients receiving an adequate dose and duration of AZT or MMF over the 2-3 year study period, vs. patients not receiving adequate doses and duration of these agents
By comparing the clinical outcome of patients underwent different hypothermic circulatory arrest (mild hypothermic versus moderate hypothermic) during aortic arch surgery, this study aims to determine the optimal hypothermic circulatory arrest strategy for aortic surgery.