View clinical trials related to Nervous System Diseases.
Filter by:To enable weaning from mechanical ventilation, two different strategies may be distinguished: continuous weaning and discontinuous weaning. There is a lack of evidence of the superiority of one of both strategies is currently weak among early neurological rehabilitation patients. To the best of our knowledge, only one study including stroke patients compared different weaning strategies and showed a significantly shorter duration of mechanical ventilation during continuous than during discontinuous weaning, which is in contrast to the results of the largest weaning study with patients on medical-surgical intensive care units. In addition, further inconsistent results were reported from studies with chronic obstructive pulmonary disease patients, which might be due to disease duration and/or duration of prior mechanical ventilation in the acute care hospital. This small number of studies with controversial results indicates that there is a considerable need for further research. The current study intended to compare the rehabilitation outcome of early neurological rehabilitation patients, weaned by different strategies (continuous vs. discontinuous) through a matched-pair analysis.
AOC 1001-CS2 (MARINA-OLE) is a Phase 2 extension of the AOC 1001-CS1 (MARINA) study to evaluate the safety, tolerability, efficacy, pharmacokinetics and pharmacodynamics of multiple-doses of AOC 1001 Administered Intravenously to Adult Myotonic Dystrophy Type 1 (DM1) patients
One of the most disabling features of Parkinson's disease (PD) is represented by the gait disturbances. Some systematic reviews and meta-analysis have showed that conventional physical therapy might improve gait as well as balance, mobility and functional reach in subjects affected by PD. In addition, several studies and reviews support the effectiveness of external sensory cueing, by means of rhythmic auditory or visual cues, in improving kinematic parameters of gait (gait cadence, stride length, velocity, and postural stability) and the functional performance in people with PD, at least in the short-term. Specifically, cueing refers to the use of temporal or spatial stimuli to regulate movement and facilitate functional performance for individual with motor dysfunction. Basal ganglia act as internal triggers of neuronal activity in the supplementary motor area for well-learned, automatic movement sequences, such as locomotion. This mechanism is damaged in individuals with PD, and external cues may act as an attention resource to compensate the deficient internal rhythm due to basal ganglia dysfunction. Subjects can be coached in concentrating their attention on gait by specific self-prompting instructions or by cues stimulation or a combination of these. Movements generated by the presence of external sensory cues are prompted to use alternative (cortical, parieto-premotor) neuronal pathways which have not been damaged by neuronal degeneration of PD, bypassing the automatic basal ganglia network. Recent studies have provided preliminary evidence that visual cueing based on laser shoes and laser canes may reduce freezing, an established risk for falls, with improvement that can be observed for a variable period of time after rehabilitative intervention. In light of the evidence of effectiveness of cueing, developing wearable devices able to generate cues that match with step and that are effective, easy to use and low cost, would be challenging but very appropriate. The aim of this study was to investigate the non-inferiority of a wearable device producing visual cues (Q-Walk system, QUICKLYPRO s.r.l., Bergamo, Italy) in order to improve gait and balance PD patients, compared to a conventional training (stripes on the floor).
The NUMITOR study is an analytical observational study with an multicenter ambisective (retrospective and prospective) cohort design.
The current study aims to investigate the effect of walking with the SAIRE smart walker on spatiotemporal parameters and gait kinematics in a population who suffer from difficulties during gait, and compare this to walking with a standard walker or no walking aid.
The device that is the subject of this investigation is a robotic assistance module for driving a semi-autonomous electric wheelchair. This module is designed to accessorize the electric wheelchair to improve the safety conditions when driving an electric wheelchair, which on the one hand reduces the accident rate of wheelchair and on the other hand and facilitates the access to the wheelchair to people who cannot claim it without the use of a safety device of this type. The robotic assistance module is programmed to detect positive and negative obstacles.
Functional Neurological Disorder (FND) is a problem with the functioning of the nervous system and how the brain and body send and receive signals, rather than due to neurological disease or injury. This causes a range of neurological symptoms such as seizures, shaking, weakness, and paralysis. The symptoms are associated with significant distress and disability. Treatment for FND in the United Kingdom is limited, and the evidence-base for treatment is poor, despite it being a common presentation. A psychological therapy called cognitive-behavioural therapy has been found to be beneficial, but it does not help everyone. EMDR is an effective treatment for posttraumatic stress disorder, but it can also be helpful with other conditions. There is a small amount of case study evidence that EMDR can be useful at treating FND, but proper scientific evaluation is needed. This research aims to evaluate the possibility of delivering, and potential benefit, of EMDR for FND. If the study shows that it is feasible and potentially beneficial, a larger trial will be designed. The study will recruit 50 participants who have specific functional neurological symptoms: weakness, walking difficulties, jerks, shaking, and/or seizures from a Neuropsychiatry Service. Participants will be allocated to EMDR, and routine medical appointments, or routine medical appointments alone. Allocation will be carried out by a computer programme. Those allocated to EMDR will be offered 8-16 weekly therapy sessions, completed within 6 months, and follow-up session 1 month after therapy has ended. Participants will be able to choose whether to attend therapy in-person or via an online video conferencing platform. Participants will complete questionnaires regarding health-related functioning, FND, mental health, and healthcare utilisation. These questionnaires will be completed at the beginning, 3 months, 6 months, and 9 months. Some participants will attend interviews about experiences of treatment.
There is a significant disparity in access to physical activity programs for people with mobility impairments, which greatly impacts mobility, function and long-term wellbeing. This study will test an online, group-based intervention consisting of exercise and behaviour activation strategies targeting these and other outcomes. Importantly, this programming will be applied to patient groups across several clinical programs at Parkwood Institute.
Parkinson's disease (PD) is a progressive neurological disorder characterized by motor and non-motor symptoms such as rigidity, bradykinesia, resting tremor, cognitive and autonomic dysfunctions, gait and balance difficulties. The impairment of gait, balance and cognitive performances is partially responsive to dopaminergic medications. This emphasizes the importance of non-pharmacological interventions for people with PD (pwPD). Intensive multidisciplinary motor and cognitive rehabilitation has been proposed as a complementary and effective treatment for managing pwPD. Several structural and physiological mechanisms have been suggested to underpin exercise-induced neuroplastic changes in PD, such as enhanced synaptic strength and preservation of dopamine neurons. To date, studies on brain changes induced by motor and cognitive exercises in pwPD have been small-scaled and uncontrolled. Identifying accessible and measurable biomarkers for monitoring the events induced by intensive motor and cognitive rehabilitation program would help in testing the treatment effectiveness and would allow personalization of rehabilitation strategies by predicting patients' responsiveness. Based on validated clinical assessments of intensive multidisciplinary rehabilitation treatment, the project will test the ability of a new set of biomarkers to evaluate rehabilitative outcomes in a cohort of people with PD.
Sub-optimal transfer of clinical information during inter-hospital transfer (IHT, the transfer of patients between acute care hospitals) is common and can lead to patient harm. To address this problem, the investigators will use key stakeholder input to refine and implement an interoperable health information exchange platform that integrates with the electronic health record and improves the reliability of and access to necessary clinical information in three use cases involving transfer of patients between sending and receiving hospitals with varying levels of affiliation and health record integration. The investigators will assess the effect of this intervention on frequency of medical errors, evaluate the use and usability of this platform from the perspective of those that interact with it, and use these results to develop a dissemination plan to spread implementation and use of this platform across other similar institutions.