View clinical trials related to Nervous System Diseases.
Filter by:This exploratory study aims to validate the collection and analysis of brain tissue imprints during the DBS by using a CE marked Medical Device in patients presenting one of the following five disorders: Parkinson's disease (PD), essential tremor (ET), dystonia (DYS), Obsessive compulsive disorder (OCD) and Tourette Syndrome (TS). The Brain Tissue Imprint project is focused on the DBS surgical procedure, which constitutes an appropriate method to collect brain tissue imprints by taking advantage of the direct and transitory contact at the extremity of the dilator with adjacent brain tissue. Indeed, during this step, micro-fragments of brain material spontaneously adhere to the dilator tip. It is this imprinting process that allows to collect what is defined as "brain tissue imprints. This approach is part of the standard surgical procedure of the SCP without major change or complications.
To determine the safety and efficacy of Amniotic and Umbilical Cord Tissue for the treatment of the following condition categories: Orthopedic, Neurologic, Urologic, Autoimmune, Renal, Cardiac and Pulmonary Conditions. The hypotheses are that the treatments are not only extremely safe, but also statistically beneficial for all conditions. Outcomes will be determined by numerous valid outcome instruments that compile general quality of life information along with condition-specific information as well.
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 purpose of this study is to compare walking to leg strength and endurance in people with multiple sclerosis (PwMS). Using these findings, we hope to be better understand what causes PwMS to have problems walking.
The purpose of this research study is to test the utility of an ankle robot, when used during treadmill walking, in people with ankle weakness and foot drop from a peripheral nervous system injury due to neuromuscular or orthopedic injury.
The purpose of this research study is to test the utility of an ankle robot in people with ankle weakness and foot drop from a peripheral nervous system injury due to neuromuscular or orthopedic injury.
The aim of this study is to determine the effect of flamingo exercise on balance in patients with balance impairment due to senil osteoarthritis
The randomized clinical trial will aim to analyze the influence of binary and quaternary rhythm through a protocol on motor symptoms, sleep, fatigue and quality of life in individuals with Parkinson's disease. The study design with a randomized clinical trial, including individuals diagnosed with Parkinson's Disease, will be divided into two groups: 1) Control group 2) Experimental group. Cognition, balance, gait freezing, functional mobility, quality of life, sleep, daytime sleepiness and fatigue will be evaluated. Through the application of binary and quaternary rhythm protocol for a period of 12 weeks. First, the descriptive statistics (mean, standard deviation and percentage) will be used to know the data, then the normality calculation using the Kolmogorov Smirnov test will be used to choose the statistical tests. All information will be collected before and after the intervention period. For statistical analysis, use the SPSS statistical package, version 20.0. (Kolmogorov-Smirnov or Shapiro-Wilk test) for the selection of statistical tests.
A novel body weight support device that uses pressurized pants may provide advantages in delivering gait therapy. The objectives of this study are to test the following hypotheses that 1) the novel device will allow for increased body weight support while improving or maintaining the same level of patient comfort; 2) the novel device will yield greater patient satisfaction with gait therapy relative to current harness systems; 3) therapists will be more satisfied with the use of the novel device relative to current harness systems; 4) the use of the novel device will require less total therapist time than a harness comparator; 5) the use of the novel device will increase therapeutic treatment time when compared with current harness systems.
the investigators hypothesize that hub alteration occurs both in diffuse diseases (MS, AD) as well as in more 'network specific' diseases (Parkinson, ALS, Epilepsy). This could impact on functional dysfunction not directly related to each disease, but that could induce common syndrome such as cognitive impairment observed in Parkinson, partial epilepsy or ALS. The objective here is to test this hypothesis and provides better understandings on pathophysiological processes affecting those highly connected regions in 'diffuse' and 'focal' neurological diseases. The ultimate goal is to identify new clinical targets for trans-nosological approaches (DBS, cognitive rehabilitation ...). Practically, the investigators will explore 200 patients classified in 5 cohorts of 40 patients suffering for MS, AD, Parkinson, ALS, Epilepsy, using the last advanced methods to assess structural and functional brain connectivity implemented on the human 7T MR scanner equipping the CEMEREM (CHU Timone, Marseille, only 50 similar MR scanners worldwide). In addition to high resolution diffusion MRI and rs-fMRI, metabolic and ionic (sodium) mapping will complement the MR protocol to characterize the pathophysiological processes of hub injury. Sixty healthy controls will also be explored wih the same protocol for normal database. The proposal aims at characterizing and comparing from a morphological-functional point of view, the hub regions of patients suffering from these five diseases, to demonstrate the pertinence to preserve hub integrity as a major therapeutic target whatever the disease.