View clinical trials related to Functional Neurological Disorder.
Filter by:Evaluation of the clinical effects of the Heart Rate Variability biofeedback training with patients suffering from Functional neurological Disorders compared with placebo.
The purpose of this study is to help providers develop an interdisciplinary treatment pathway for functional neurological disorder (FND) at University of Alabama at Birmingham (UAB), and will involve psychiatry, speech therapy, physical therapy, and occupational therapy. The study will also help providers to evaluate the treatment pathway and publish results regarding the process and outcomes.
This research is being done to determine the effectiveness of a new treatment, called JOGO, for patients with functional tremor (FT). JOGO is a biofeedback device that has been shown to help patients with several conditions, e.g., chronic pain, migraine, and Parkinson's disease (PD)-related tremor. JOGO provides biofeedback by using wireless adhesive stickers, called surface electromyography, to get information about muscle activity. This information is then used to modify symptoms through a series of training sessions with a physical therapist and individual practice.
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?
Functional neurological disorders (FND) are motor, sensory or cognitive symptoms without an identified lesion. This is a very common reason for consultation in neurology. Transcranial magnetic stimulation (TMS) may be performed in these patients both for diagnostic purposes (in the context of motor evoked potentials) and for therapeutic purposes. The main objective of the study is to evaluate tolerability of TMS in patients with FND, in particular the pain caused by stimulation and the possible modification of painful or non-painful symptoms generated by this TMS. The secondary objectives are to assess chronic pain symptoms of these patients quantitatively and qualitatively, to assess expectations of these patients with regard to the performed examinations and to assess their expectations regarding magnetic stimulation performed for therapeutic purposes.
Functional seizures are common and harmful. They look like epileptic seizures but are not caused by the excess electrical discharges in the brain that arise in epilepsy. Our understanding of the mechanisms that give rise to functional seizures is limited, and for this reason the development of novel treatments for functional seizures is also limited. Recent research by our and other groups has shown that interoception may play an important role in the development of functional seizures. Interoception refers to the process by which the nervous system senses, interprets and integrates information from inside the body. Research has shown that altered interoception is linked to functional seizures. We have shown that patients with functional seizures have a reduced ability to accurately identify signals from within their bodies, such as their heartbeats. The worse their ability, the greater their seizure severity and higher their levels of other unwanted symptoms. In separate research other groups have shown that interoceptive training, that is actively training an individual to better recognise signals from their body, can reduce levels of anxiety and the levels of unwanted symptoms. In this study we therefore plan to explore the feasibility of interoceptive training in patients with functional seizures.
The main goal of this project is to better understand the role of oxytocin and Interoception in FND. More specifically oxytocin's association with precision weighing, prediction errors and priors in the interoceptive domains will be investigated. To this end, several methods will be employed: analysis of interoceptive accuracy and sensibility (interoceptive tasks and questionnaires), biomarkers of oxytocin (peripheral, endogenous oxytocin), genetic oxytocin markers (such as allele-frequency in the oxytonergic receptor gene), epigenetics (methylation rates of genes related to oxytocin), neuroactivity (EEG).
The goal of this clinical trial is to learn about an intervention package in individuals with Functional Neurological Disorder (FND). The main questions it aims to answer are: - Is the intervention package acceptable to and feasible to deliver to individuals with FND? - Does the intervention package improve symptoms of FND? Participants will be asked to engage in 8 weekly sessions of an intervention aimed to improve the perception of signals coming from the body (interoception). Participants will be asked to complete tasks between session practising tuning into signals from the body. Participants will also be asked to complete questionnaires measuring their psychological wellbeing, FND symptoms and interoception.
Spasticity can result from a variety of causes in neural axis from which most common are cerebral palsy, strokes, cerebral haemorrhage, multiple sclerosis , traumatic brain injury and spinal cord injury and underlying mechanism is broadly due to decrease inhibition of the spinal network. Clinical evaluation for spasticity involve series of clinical assessment , physical examination , and neurophysiological testing. quantitative evaluation of spasticity can be measured using modified Ashworth scale which is the most widely used clinical spasticity scale and can be used for various clinical conditions causing spasticity
The goal of this study is to learn about the brain network response in people who have functional neurological disorder who are administered with a single dose of the psychedelic psilocybin with therapeutic support. The main question it aims to answer is: Can the default mode network, a brain network thought to be relevent in FND, be modified by the administration of psilocybin based on functional magnetic resonance imaging before and after the dose?