Loading clinical trials...
Loading clinical trials...
Browse 656 clinical trials for als. Find studies that match your criteria and connect with research centers.
Find trials near:
Showing 321-340 of 656 trials
NCT04559009
Amyotrophic lateral sclerosis (ALS) is a relentlessly progressive and fatal neurodegenerative disease characterized by progressive weakness involving limb, bulbar, and respiratory muscles.There is currently no information suggesting how COVID-19 affects patients diagnosed with amyotrophic lateral sclerosis (ALS). This is especially important as respiratory compromise is common in ALS patients and can complicate the clinical course as COVID-19 could lead to respiratory failure and need for intubation. We intend that this registry will guide our understanding of how COVID-19 affects patients with ALS.
NCT05592236
In recent years, it is seen that dynamic compression garments are used to increase body stability and to provide tone regulation. Dynamic compression garments are used to apply pressure to specific muscles or muscle groups. Different studies have drawn attention to the effect of dynamic compression garments on postural control and proximal stability. Researchers observed that upper extremity functions and fine motor skills improved with the use of clothing, and they associated this with improved proximal stability. In light of this information, the aim of this study is; To investigate the effects of dynamic compression garments applied in addition to traditional treatment on posture, trunk control, and upper extremity functions during sitting in children with hemiparetic CP.
NCT05638477
Study Rationale: No accurate tests currently exist to diagnose Parkinson's disease (PD) and the conditions which mimic it (atypical parkinsonism) at a very early stage. Similarly there are no accurate ways to track how these diseases progress in a very precise manner. Recording eye movements and pupils may be a very sensitive way of doing this and may contain important information about a patient's diagnosis and their cognitive and motor function. Hypothesis: We hypothesize that measuring eye movements and pupil changes while people watch short video clips will differentiate PD and atypical parkinsonism at an early stage. We hypothesize that eye movements and pupil changes will be able to track how a person's disease changes over time and could even predict their disease course from the start. Before we can do this, we need to be able to accurately differentiate between PD and atypical parkinsonism and see how eye movements vary among people with the same disease. Study Design: We will ask a large number of people with PD and atypical parkinsonism to watch very brief video clips while we record eye movements and pupil responses. This is like changing the television channel every few seconds and observing what happens to a person's eyes as they search the new clip. We will compare these results between different disease groups and correlate them with clinical features of PD and atypical parkinsonism. Impact on Diagnosis/Treatment of Parkinson's disease: This may have enormous impact in the assessment of people with PD. It may become an important diagnostic tool, a prognostic marker at the early stage of disease, as well as providing the ability to track disease progression in clinical trials. Next Steps for Development: Once we can demonstrate that eye tracking can differentiate these conditions, we will follow a large number of patients to see how their eye movements and pupils change over time with their disease. If this is a reliable way to track disease it could be used to measure disease progression in these conditions and response to treatment.