View clinical trials related to Movement Disorders.
Filter by:The aim is to investigate the inter-rater reliability of passive range of motion (pROM) measurement with goniometer of knee extension and ankle dorsiflexion for children with unilateral spastic cerebral palsy (USCP) and secondary to explore to what extent spasticity influences the reliability.
The purpose of this clinical trial is to learn about the Tremor Retrainer smartphone application and Simplified Functional Movement Disorder Rating Scale in patients with functional tremor. The main questions the study aims to answer are: 1. Is the Tremor Retrainer application usable for patients and are there signs that it can help functional tremor? 2. Can a televideo administration of the Simplified Functional Movement Disorder Rating Scale give enough information to use this scale via televideo in future studies?
SLC13A5 deficiency (Citrate Transporter Disorder, EIEE 25) is a rare genetic disorder with neurodevelopmental delays and seizure onset in the first few days of life. This natural history study is designed to address the lack of understanding of disease progression. Additionally it will identify clinical and biomarker endpoints for use in future clinical trials.
The purpose of this study is to test the safety of placing Deep Brain Stimulators (DBS) in a part of the brain called the cerebellum and using electrical stimulation of that part of the brain to treat movement symptoms related to cerebral palsy. Ten children and young adults with dyskinetic cerebral palsy will be implanted with a Medtronic Percept Primary Cell Neurostimulator. We will pilot videotaped automated movement recognition techniques and formal gait analysis, as well as collect and characterize each subject's physiological and neuroimaging markers that may predict hyperkinetic pathological states and their response to therapeutic DBS.
In this pilot study, the investigators will evaluate care delivery via telemedicine to individuals with drug-induced movement disorders (DIMDs). DIMDs can be disabling, and prevention is important; but these disorders are often under-reported, under-recognized and poorly managed. Interprofessional telemedicine for movement disorders is feasible and may provide similar care as in-person visits; however, the majority of studies to date have shown benefit in Parkinson's disease and further validation in other movement disorders is necessary. In this randomized controlled trial the aim is to study the acceptability, feasibility, and patient and clinician outcomes when a neurological consultation is provided for patients with DIMDs either in-person or through telemedicine. The investigators will apply the evaluation framework RE-AIM (Reach and Effectiveness, Adoption, Implementation, and Maintenance) to comprehensively assess the factors that may impact study success and program implementation. Mixed methods will be implemented to gather outcome data from mental health clinicians that refer patients and the patient participants.
The aim of this psychological study is to evaluate the effect of a cognitive behavioral therapy (CBT) intervention aimed at improving cognitive reappraisal on (1) Clinical and Self-Rated Health according to Patient Global Impression-Change (PGI-C), Patient Global Impression-Severity (PGI-S), Clinical Global Impression-Change (CGI-C) and Clinical Global Impression-Severity (CGI-S) after 4 weeks, (2) the change in the severity of the functional movement disorder/tremor as assessed by a blinded clinician using the Simplified Version of the Psychogenic Movement Disorders Rating Scale (S-FMDRS) after 4 weeks and (3) the change in the severity of functional tremor assessed via the Fahn Tolosa Marin Tremor Rating Scale (FTM) after 4 weeks. The knowledge gained about the introspective and neurobiological effect of this cognitive behavioral therapy intervention should enable improved therapy options for patients with functional tremor / functional motor disorders in the future.
The aim of this study is to determine the prevalence of movement disorders in MS patients. Also,To know the clinical type of movement disorders occurring with multiple sclerosis patients and the MRI finding of those patients. Moreover, to find the correlation between the movement disorder and the different types of MS.
Video game-based training programs, in the following referred to as "exergames" are an innovative digital training approach to simultaneously train physical and cognitive functions and increase training motivation for various populations. Patients who are differently limited in their physical and cognitive performance due to a decline in functioning can profit from a motivating and combined physical-cognitive training approach. An interdisciplinary team of movement scientists, sports and training experts, as well as game and industrial designers developed an innovative and immersive video game-based training product for patients - the ExerCube training software licence. The exergame development focused on a user-centred process together with the target population. The ExerCube training software licence is an exergame training product that includes immersive mixed-reality training programs (or video games) for patients. Depending on the patient's training requirements, the therapists can choose from the training program repertoire. The patients control the training program (or video game) by specific (whole) body movements. To present the virtual training programs from the ExerCube training software licence in the physical environment, the ExerCube hardware and harness system is used to serve as a physical training room. It allows the virtual video game environment to be presented in the physical world. This summative usability study aims to assess the training system's safety, usability and validate the user experience. Primary end-users (defined as patients aged 18 and above) and secondary end-users (defined as sports scientists, training therapists or physiotherapists/occupational therapists with a focus on sports/training therapy) will test and review the system in different testing scenarios.
Transcranial Ultrasound Stimulation (TUS) is an emerging non-invasive brain stimulation(NIBS) technique that can be used on both superficial and deep brain targets with a high spatial resolution as small as a few cubic millimeters. Neural correlates of TUS have yet been elucidated. To date, no intracranial recordings (i.e., local field potential [LFP]) have been captured during or after TUS in patients with movement disorders. In this study, we are aiming to profile basal ganglia LFP activity during and after TUS by using a DBS system that is capable of recording LFP. This can shed light on mechanisms of TUS, as well as allow identification of a neurophysiological biomarker that can be used to tune the TUS sonication parameters for future clinical trials.
To demonstrate that DMSt + RF improves eye blink quality in subjects with dry eye disease