View clinical trials related to Nervous System Diseases.
Filter by:Background: Physiotherapists (PTs) in primary health care manage patients with a large variation in medical diagnosis, age, functional status, disability and prognosis. Lack of knowledge and systematically collected data about patients treated by PTs in primary health care has prompted this longitudinal observational physiotherapy project in Norway. This paper aims to describe a method for developing a database of patients managed by PTs in primary health care to study patients' characteristics, treatment courses and prognostic factors. The study is a longitudinal observational project, following patients through physiotherapy treatment periods in primary health care in Norway and until one year after inclusion. The project involves both private practice and municipally employed PTs working in primary health care in eight municipalities in Norway. The participants are recruited to three different parts of the project depending on age and whether they are referred to a private practice or a municipally employed PT. All data are recorded electronically, transferred and stored securely. All patients complete extensive questionnaires providing information about demographics, disability and function, pain related variables, treatment and evaluation of treatment as well as clinical tests. The PTs have access to their own patients' data. The investigators have also prepared for linkage to national patient registers and population-based studies to be able to gather further important data. This project will have important implications for physiotherapy services in primary health care. The database already contains almost 3000 patients, and data collection is ongoing. Preliminary analyses suggest that the patients included so far are representative of the larger population of patients treated by private practice or municipally employed PTs in Norway. This large scale prospective physiotherapy project will provide knowledge about the patient groups treated, treatment given as well as short and long term outcome of the patients.
Ambulatory children with cerebral palsy (CP) experience walking limitations which negatively influence their ability to physically participate in day to day life. The investigators propose that impaired muscle power generation is the key limiting factor affecting walking activity and participation. This proposal represents a combined approach where participants undergo resistance training for muscle power generation in combination with locomotor treadmill training that is based on typical pediatric walking and activity patterns rather than adult protocols, which are endurance or time-based. Therefore, the primary objective of this randomized controlled trial is to determine the effect of lower extremity Power Training combined with interval Treadmill Training (PT³) on functional walking capacity and community-based activity and participation in children with CP. We hypothesize that remediating the most pronounced muscle performance impairment (i.e., muscle power) with power training combined with a task- specific approach to walking that is developmentally appropriate will have a significant effect on walking capacity and performance.
The aim of this case-controlled observational cross-sectional study is to investigate the test-retest reliability, validity and clinical utility of a rapid robotic assessment of finger proprioception using a passive gauge position matching tasks in MS and stroke subjects. Session 1 Informed consent Descriptive measures Session 2 Clinical testing Robotic assessment (3x) Session 3 Clinical testing Robotic assessment (3x)
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.
Patients referred to neurosurgery routinely and safely undergo deep brain stimulation (DBS) for treatment of symptoms related to neurodegenerative conditions, most commonly Parkinson's disease. In the investigators experience, and published evidence shows, that stimulation has effects on the autonomic nervous system. In patients undergoing therapeutic DBS for a particular subtype of Parkinsonism, Multiple System Atrophy, the further effects on autonomic parameters such as blood pressure and bladder symptoms as well as the originally intended indications (gait and movement disorder) will be investigated. The mechanisms of any effects will also be studied by using a number of techniques such as magnetoencephalography (MEG) and Muscle Sympathetic Nerve Activity (MSNA) recording. Key goals are to: 1. Demonstrate that stimulation of the peduculopontine nucleus (PPN) improves autonomic function and has an attendant improvement on patients' quality of life 2. Investigate the role of the PPN and how it interacts with other brain areas. This translational strategy will lead to a larger efficacy study of DBS for MSA as well as revolutionizing neural-based treatments in other autonomic disorders such as orthostatic hypotension and pure autonomic failure.
A randomized open clinical trial to assess the added value of a comprehensive rehabilitation program on fall prevention and improve participation and activities of daily living. Baseline assessment, 6-month experimental intervention (experimental group) vs. usual rehabilitation programs and assessment at end of treatment and six months after treatment will be performed.
The purpose of this study is to evaluate a pharmacokinetic drug interaction between D797 of D324 in healthy volunteers
The HEP2 study is designed to better understand the challenges of living with focal seizures that do not respond to medication, by following 205 people with medication-resistant focal epilepsy over two years to measure changes in health status, healthcare costs, quality of life, and biomarkers of epilepsy severity and treatment response.
This study evaluates effect of sphenopalatine ganglion block in post dural puncture headache. Half of participants will receive standard supportive treatment and other half of patients will be performed sphenopalatine ganglion block.