View clinical trials related to Nervous System Diseases.
Filter by:Spinal cord stimulation (SCS) for Parkinson´s disease (PD) has been studied for a decade but consensus on efficacy is still lacking, with the previous stimulation standard paresthesia inducing threshold hampering adequate subject blinding. Considering that tonic stimulation for pain has been shown to be efficacious for most patients on subthreshold stimulation parameters we hypothesize a similar result with it´s use on PD. The investigators aim to: 1. Produce stronger evidence on SCS efficacy for PD in regards to gait, motor scores and quality of life measures by incorporating subthreshold in a randomized cross over placebo-controlled study with a large sample. 2. Identify predictors of good response to SCS therapy by performing trans spinal magnetic stimulation (TSMS) before SCS implant and correlating the response to SCS to that of the noninvasive TSMS. 3. Better provide biomarkers of SCS therapy through functional magnetic resonance imaging and electroencephalographic mapping.
This is a non-interventional study examining IENFD levels in patients with CIPN after taxane chemotherapy and in age-matched healthy subjects.
Cognitive impairments such as memory impairments, word-finding difficulties, compromised orientation and perception are often observed in stroke patients. Low serum-mg-concentrations are associated with cognitive impairments in ischemic stroke patients one month after stroke onset. It is not clear, if cognitive impairments after stroke is caused by the mg-deficiency or by the stroke itself. Until now, no studies investigating the relationship between mg-concentration, stroke severity and cognition during treatment course are available. Thus, this study aimed to investigate the relationship between mg-concentration and cognition of stroke patients.
HOPE-3 is a two cohort, Phase 3, multi-center, randomized, double-blind, placebo-controlled clinical trial evaluating the efficacy and safety of a cell therapy called CAP-1002 in study participants with Duchenne muscular dystrophy (DMD) and impaired skeletal muscle function. Non-ambulatory and ambulatory boys and young men who meet eligibility criteria will be randomly assigned to receive either CAP-1002 or placebo every 3 months for a total of 4 doses during the first 12-months of the study. All participants will be eligible to receive 4 doses of CAP-1002 for an additional 12 months as part of an open-label extended assessment period.
Gait difficulties are common in Parkinson's disease (PD) and cause significant disability. No treatment is available for these symptoms. Spinal Cord Stimulation (SCS) has been found to improve gait, including freezing of gait, in a small number of PD patients. The mechanism of action is unclear and some patients are nonresponders. With this double-blind placebo-controlled proof of concept and feasibility imaging study, we aim to shed light on the mechanism of action of SCS and collect data to inform development of a scientifically sound clinical trial protocol. We also hope to identify imaging biomarkers at baseline that could be predictive of a favourable or a negative outcome of SCS and improve patient selection. Patients will be assessed with clinical rating scales and gait evaluations at baseline and 6 and 12 months after SCS. They will also receive serial 18F-FDG and ([18F]FEOBV) PET scans to assess the effects of SCS on cortical/subcortical activity and brain cholinergic function
The study aims to characterize prospectively longitudinal progression of neurological domains in GM1 and GM2 Gangliosidosis patients with high-quality standards (GCP compliant).
The purpose of this study is to collect clinical data, biological specimens (e.g., blood, tumor, cerebrospinal fluid, urine sample, etc.), and digital health data from patients with tumors, cancer and/or neurological disorders in order to perform research studies that could advance patient care. By collecting these specimens, the investigators plan to create and maintain a biorepository to make data and specimens available to collaborating investigators performing research to discover predictive biomarkers, patterns of care, and personalized treatments that could directly improve the care of our patients through focused proof-of-concept clinical trials.
Neurosurgical practice has seen many important changes over several decades with advances in treatments and the types of patients treated. Neurosurgical procedures have evolved, and as outcomes have improved the number of patients being treated has increased. There are no recent evaluations of national neurosurgical practice in the United Kingdom (UK), with the last prospective cohort studies being Safe Neurosurgery 1993 and Safe Neurosurgery 2000. More recent studies of neurosurgical services have been based on data from single institutions or surgeons and these may not give a representative picture of practice nationally. Recent national quality improvement programmes for neurosurgery in England (such as the National Neurosurgical Audit Programme (NNAP) and Cranial Neurosurgery and Spinal Surgery Getting It Right First Time (GIRFT) Programmes) have focused on using national hospital administrative datasets. To be effective, quality improvement initiatives require robust outcome measures and quality (process) indicators. Currently, there is a lack of validated quality indicators for neurosurgery, with practice often being described using generic measures such as readmission and reoperation rates and length of stay. Many studies have been able to derive these common outcome measures, but it may also be possible to produce indicators specific to neurosurgery. The aim of this observational study was firstly to describe the current pattern of neurosurgical admissions and procedures in England, and thereby given an overview of the epidemiology of neurosurgical patients. Secondly, it aims to investigate the range of outcome measures that might be produced from hospital administrative data and use these to assess the quality of care in neurosurgery.
The aim of this study is to investigate whether researchers can improve sleep quality in patients with deep brain stimulators by delivering targeted stimulation patterns during specific stages of sleep.
Numerous studies have shown the diagnostic interest of cerebrospinal fluid kappa free light chains and kappa index in multiple sclerosis. However, large cohort studies are lacking and little is known about the correlation between kappa and lambda indexes and multiple sclerosis evidence disease activity. Therefore, this study plan to validate the kappa and lambda free light chains and indexes as diagnostic biomarker in multiple sclerosis and to correlate the concentration of kappa and lambda free light chains with clinical and radiological activity in a large cohort of patients.