Study being conducted to learn about the effects (both good and bad) of a brain stimulating device known as the External Responsive Neurostimulating System. This is an investigational device that was designed to detect seizure activity and give an electrical stimulation to the brain to try to stop it
Mayo Clinic researchers are looking at a new procedure that involves surgically placing a Responsive Neurostimulator (RNS) in the brain that may be able to suppress seizures in patients with epilepsy
Mayo study to look for genes that are the cause of epilepsy and to look for genes that have an impact on the effectiveness of over the counter and prescription medicines used to treat epilepsy.
Mayo study to evaluate a potential new treatment for epilepsy. Researchers want to learn if the investigational drug called perampanel is safe and can help people with partial seizures who are already taking seizure medications and the current seizure medications are not enough to control those seizures. Perampanel is being tested as a possible add-on drug for people with seizures who are taking other seizure medications.
The primary goal of ICBM has been and remains, the development of a probabilistic reference system for the human brain as an important neuroinformatics tool for use by the neuroscience community.
Stanford Clinical Trial and study Optimizing Assisted Communication Devices for Children with Motor Impairments using a model of Information Rate and Channel Capacity
Stanford trial and study to learn about upper extremity hypertonia (stiffness) in children and young adults with cerebral palsy. Specifically, they want to learn about ways to measure the stiffness in the joints of hypertonic arms. The information the research team will collect includes any physical exams or computer generated data about your arm movements.
Stanford trial assessing use of Theta-burst transcranial magnetic stimulation (TBS) as a new, non-invasive therapeutic intervention to aid in physical therapy and symptom amelioration of dystonia and spasticity
Baclofen Efficacy and Safety Trials - Pediatric Pharmacokinetic and Pharmacodynamic Study of Oral Baclofen for the Treatment of Spasticity Associated with Cerebral Palsy (BEST-PK/PD)
University of Virginia Health System clinical study to look at how children's bones grow and mature when they have Cerebral Palsy. This information will be compared to growth in children that do not have Cerebral Palsy.
Study being conducted to identify specific motor signatures of different forms of dystonia. Study will examine abnormal co-activation in distal and proximal muscles to evaluate the characteristics of the loss of selectivity of the motor command in mobile vs. fixed dystonia. We will also study possible cognitive and limbic components of the disease, examining the influence of cognitive and emotional loads on movement production.
Completed study used transcranial magnetic stimulation (TMS) to examine how the brain controls muscle movement in dystonia. Dystonia is a movement disorder in which involuntary muscle contractions cause uncontrolled twisting and repetitive movement or abnormal postures.
Study conducted and completed to determine if the calcium channel blockers, amlodipine can augment the effect of botulinum toxin injections in the treatment of focal dystonia.
Study will examine how the brain controls speech in patients with spasmodic dysphonia, a voice disorder that involves involuntary spasms of muscles in the larynx (voice box), causing breaks in speech. Although the causes of spasmodic dysphonia are unknown, recent studies found changes in brain function in patients with the disorder that may play a role in its development.
Theta-burst transcranial magnetic stimulation (TBS) is a type of repetitive transcranial magnetic stimulation (rTMS) method that reduces the excitability of a small region of brain for less than one hour. Since dystonia and spasticity may be associated with increased excitability of motor cortex, we expect that by reducing the excitability of motor cortex with TBS we will temporarily improve these symptoms and hopefully open avenues in the future for the use of TBS as a new, non-invasive therapeutic intervention to aid in physical therapy and symptom amelioration of dystonia and spasticity.
Stanford University sponsored study of trihexyphenidyl in children with upper extremity dystonia due to cerebral palsy. It is hypothesized that trihexyphenidyl in doses up to 0.75mg/kg/day would be well-tolerated and show significant changes on the Melbourne scale of upper extremity function.
Study being conducted to better understand how the brain controls movement, to learn more about movement disorders and to train movement disorder specialists.
Study being conducted to learn about upper extremity hypertonia (stiffness) in children and young adults with cerebral palsy. Specifically, they want to learn about ways to measure the stiffness in the joints of hypertonic arms.
Study will examine the effectiveness of botulinum toxin as treatment for a variety of movement disorders. The goals of the study are to refine the technique of treatment to provide the best results, to improve the understanding of how botulinum toxin works on movement disorders, and find other conditions that may be treatable with botulinum toxin.In addition, researchers also plan to study the possible use of botulinum toxin F alone and in combination with botulinum toxin A in patients who do not respond to botulinum A toxin treatment.
Study to create a bio-repository of blood samples from patients and healthy subjects who are participating in NINDS motor learning studies. A variety of genes that may affect motor learning are being increasingly identified, and variations among these genes, referred to as polymorphisms, may help explain individual differences.
