View clinical trials related to Nervous System Diseases.
Filter by:The aim of the present pilot study is to investigate the acceptance, feasibility and implementation of the vagus nerv stimulation in Long COVID patients. Additionally, the effects on parameters of the autonomic nervous system as well as on symptoms of Long COVID will be described in a pre/post comparison. For this purpose, a total of 45 female Long COVID patients will participate in the randomized controlled pilot study. Patients will perform auricular vagus stimulation daily for 12 weeks. The patient collective will be randomized into three groups (A: 10 hertz, B: 25 hertz, C: 2 hertz=control group). If appropriate results are obtained, further adequately powered intervention studies are planned.
Variable Frequency Stimulation(VFS) is a stimulation pattern applied in Deep Brain Stimulation(DBS) therapy for Parkinson's disease(PD). Peking Union Medical College Hospital was the first centre conducting research on VFS. The studies in the past have resembled conclusion that VFS provides improvement not only in the major symptoms such as tremor and rigidity, but also in gait and balance disorder. However, the best programming strategy of VFS has not met agreement. The random-controlled double blinded crossover study is designed for participants who underwent DBS surgery in bilateral subthalamic nucleus for parkinson's disease. The investigators study several strategies on programming and observe the improvement of symptom to look for the best one. A 4-month follow-up is designed to observe a relatively long-term effectiveness of VFS. The study intends to gather more clinical evidence to guide further studies on VFS application.
A study conducted in Finland discovered that a multidomain intervention, consisting of physical activity, nutritional guidance, cognitive training, social activities, and management of vascular risk factors, effectively decelerated cognitive decline in healthy older adults who were at an increased risk of cognitive decline. The HERITAGE study is a 2-year clustered randomized controlled trial (clustered-RCT) that explores the efficacy of a multidomain intervention among 1200 elderly residents with a higher risk of cognitive decline and dementia in Zhejiang Province, China
To explore the predictive and diagnostic role of biomarkers in patients with neurological diseases.
The BLESS Study contributes to filling this information gap by collecting data from the Italian clinical practice and the Compassionate Use Program, to better characterize the clinical profile of cenobamate describing its effectiveness, safety and tolerability in adult patients diagnosed with uncontrolled focal epilepsy despite the use of at least two antiepileptic medicinal products.
This registry study aims to collect data on the provision of assistive devices, medicines, and other healthcare measures, such as ventilation therapy and nutrition support, in patients with Amyotrophic lateral sclerosis (ALS), Spinal muscular atrophy (SMA) and other neurological disorders. The data collected should describe the clinical practice, meaning real-world evidence and patient-reported outcomes.
In this study, musculoskeletal-related pain, posture, spine function, the condition of the low back and neck regions, musculoskeletal system disorders, fatigue, and quality of life will be examined in caregivers of rehabilitation patients.
Rationale: Ocrelizumab is widely and effectively used to treat relapsing multiple sclerosis (RMS). Phase II studies and data from large patient cohorts indicate that rituximab, another anti-CD20 monoclonal antibody, is probably equally effective and safe as ocrelizumab in the treatment of RMS. An advantage of rituximab is a considerably lower price. Therefore we will start a study aimed at demonstrating non-inferiority of rituximab compared to ocrelizumab in RMS. If non-inferiority of rituximab can be shown, important reductions in the cost of treatment of RMS will be possible, without loss of efficacy. Objective: Evaluating the efficacy and safety of ritixumab compared to ocrelizumab in the treatmens of RMS. Study design: Randomized double blind multi-centre non-inferiority study of rituximab compared to ocrelizumab in 200 patients with RMS. The trial duration will be 30 months Study population: The study population consists of 200 adult RMS patiens with an indication to start anti-CD20 monoclonal antibody treatment. Intervention: Patients will be randomized 1:1 into the standard group (ocrelizumab treatment) or the experimental group (rituximab treatment). Main study parameters: To conclude non-inferiority of rituximab there will be one primary endpoint: the proportion of patients free of inflammatory disease activity (defined as: new or enlarged T2 lesions) between week 24 (M6) and week 96 (M24) of treatment in each arm. Secondary trial endpoints are presence and number of clinical relapses,T2 and contrast enhancing lesion volumes, brain volume and brain volume changes, disease progression (defined as clinically relevant change on any of the measures: EDSS, T25FW, 9HPT, SDMT), biochemical parameters such as lipidomics and neurofilament light (NfL), immunological parameters, safety as measured by the number of (serious) adverse events ((S)AE), quality of life (EQ-5D-L) and treatment satisfaction (TSQM) and patient reported measures of MS impact (MSIS-29) and well-being (questionnaire on physical complaints) Nature and extent of the burden and risk: Patients included in this study will be treated and monitored by MRI, clinical tests and laboratory tests according to existing protocols and will not be exposed to extra or unknown risks. They will have extra annual questionnaires and larger blood samples at some time points. There is extensive experience with both rituximab and ocrelizumab as efficacious and safe treatments of RMS.
This study aims to explore the effects of the treatment with MindLenses Professional device on cognitive and motor performances,as well as on the levels of a neurotrophic factor implied in brain plasticity, that is the brain derived neurotrophic factor (BDNF), in neurological patients. A further aim of the study is to evaluate if the treatment's efficacy could depend on specific characteristics of brain alteration (lesion vs atrophy). The treatment combines prismatic adaptation with serious games for cognitive training, for a total of 10 sessions. 30 patients with stroke and 30 patients with Mild Cognitive Impairment will be enrolled.
Financial Abilities (FA) are a set of capacities that allow a person to independently manage her/his financial affairs in a manner consistent with personal self-interests and values. This project will: a) assess Financial Abilities in different neurological conditions: Mild Cognitive Impairment, Parkinson's disease and Stroke patients; b) investigate both cognitive correlations, specifically the role of executive functions, thought to be critically involved in the FA multi-dimensional concept, and neuro-anatomical correlates of Financial Abilities; c) build a rehabilitation tool in order to improve FA. Secondary aims are to apply this rehabilitation tool at long distance and evaluate its behavioral, functional and neuroanatomical effects. The starting point for this project is the recently published NADL-F - Numerical Activities of Daily Living - Financial, a multi-domain ecological battery aimed at assessing FA in healthy people as well as in neurological patient populations