Clinical Research Directory

Radiofrequency (RF) Ablation Prospective Outcomes Study for Central Nervous System - RAPID for CNS

The objective of this study is to compile real-world outcomes of Boston Scientific commercially approved radiofrequency (RF) ablation systems used in the central nervous system (CNS) for use in functional neurosurgery.

Botulinum Toxin for the Treatment of Involuntary Movement Disorders

BTX has been used since the 1980s in support of the research mission of NINDS. Initial studies were focused on expanding the applicability of BTX treatment to movement disorders and exploring new indications. We evaluated the efficacy of an alternative serotype, type F. Under other protocols, we continue to study the physiology of movement disorders and BTX response. The application of BTX therapy to movement disorders requires an understanding of BTX preparation and handling. The treatment must be tailored to the disorder under treatment and to its expression in the individual patient. Users must know the specific techniques of injection, including the use of EMG and ultrasound guidance. This protocol allows us to train physicians in all aspects of the use of BTX. It also provides us with a cohort of patients, receiving a standard method of treatment and with a stable response to BTX injection, for participation in other protocols on movement disorders and on the responses to BTX injection.

Effects of Targeted Temporal Interference Stimulation of Cerebellar Nuclei on Tremor and Gait Disturbance in Parkinson's Disease Patients

The goal of this clinical trial is to explore the effects of cerebellar nuclei TIS stimulation on improving tremor and gait disorders in PD patients. Through randomized double-blind grouping, the differences in efficacy between TIS intervention and sham stimulation intervention for tremor and gait disorders in PD patients will be compared.

A Post-Approval Registry for Exablate 4000 Type 1.0 and Type 1.1 for Unilateral Pallidotomy for the Treatment of Advanced, Idiopathic Parkinson's Disease With Medication-refractory Moderate to Severe Motor Complications

This registry is a prospective, multicenter, international, single arm, observational post-approval registry with follow-up at 3, 6, and 12 months, and annually for 5 years. The proposed registry will enroll 60 subjects and will be conducted at approximately 10 centers worldwide.

Dyadic Mindfulness for People With Parkinson's Disease and Their Caregivers

The proposed two-arm randomized waitlist-controlled trial will use a mixed-methods design to investigate the effects of dyadic mindfulness on physio-psycho-spiritual outcomes in people with Parkinson's Disease (PwPD) and their family caregivers. One hundred Chinese patient-caregiver dyads will be randomized to receive eight weekly 90-minute dyadic mindfulness sessions or usual care. Outcome measures include negative emotions (primary outcome), patient-caregiver relationship, mindfulness, HRQOL, gut microbiome, PD-related symptoms, and caregiving burden. An actor-partner interdependence model will be used to explore the interactions of treatment effects within the dyads. The dyads will be assessed at baseline(T0), post-intervention(T1), and 4-months post-intervention(T2). The investigators will also invite 25 dyads to attend in-depth interviews exploring their experiences, perceived changes, and factors attributable to the effectiveness/ineffectiveness of the intervention. Generalized linear mixed-effects (GLME) with intention-to-treat analysis will be used to compare the changes in outcomes over time within and between the two arms. The findings will be triangulated to provide a comprehensive evaluation of the intervention's effectiveness. This study will generate rigorous scientific evidence to inform the application of dyadic mindfulness as a public health practice preventing the progression of psychological distress in PwPD and caregivers to clinically severe levels. Its self-help nature also enriches the primary care for this clinical cohort.

Hereditary Spastic Paraplegia Genomic Sequencing Initiative (HSPseq)

The purpose of the HSP Sequencing Initiative is to better understand the role of genetics in hereditary spastic paraplegia (HSP) and related disorders. The HSPs are a group of more than 80 inherited neurological diseases that share the common feature of progressive spasticity. Collectively, the HSPs present the most common cause of inherited spasticity and associated disability, with a combined prevalence of 2-5 cases per 100,000 individuals worldwide. In childhood-onset forms, initial symptoms are often non-specific and many children may not receive a diagnosis until progressive features are recognized, often leading to a significant diagnostic delay. Genetic testing in children with spastic paraplegia is not yet standard practice. In this study, the investigators hope to identify genetic factors related to HSP. By identifying different genetic factors, the investigators hope that over time we can develop better treatments for sub-categories of HSP based on cause.

A Retrospective Survey-based Multicenter Study to Delineate the Molecular and Phenotypic Spectrum of Epilepsy-dyskinesia Syndromes

The Epilepsy-Dyskinesia Study aims to advance the understanding of the clinical and molecular spectrum of epilepsy-dyskinesia syndromes, monogenic diseases that cause both movement disorders and epilepsy. Addressing challenges in rare disease research -such as small, geographically dispersed patient populations and a lack of standardized protocols- the study employs a multinational retrospective survey endorsed by the International Parkinson and Movement Disorder Society. This survey seeks to collect comprehensive data on clinical features, disease progression, age of onset, genetic variants, and concurrent neurological conditions, standardizing data collection across countries to provide a unified understanding of these conditions. Through retrospective review and molecular data analysis, the study aims to identify patterns and correlations between movement and seizure disorders, uncovering genotype-phenotype relationships. The initiative\'s goals are to enhance understanding of epilepsy-dyskinesia syndromes, inform precision medicine approaches, and foster international collaboration.

A Multicenter Pediatric Deep Brain Stimulation Registry

There is limited data on outcomes for children who have undergone deep brain stimulation (DBS) for movement disorders, and individual centers performing this surgery often lack sufficient cases to power research studies adequately. This study aims to develop a multicenter pediatric DBS registry that allows multiple sites to share clinical pediatric DBS data. The primary goals are to enable large-scale, well-powered analyses of the safety and efficacy of DBS in the pediatric population and to further explore and refine DBS as a therapeutic option for children with dystonia and other hyperkinetic movement disorders. Given the current scarcity of evidence available to clinicians, this centralized multicenter repository of clinical data is critical for addressing key research questions and improving clinical practice for pediatric DBS.

Neurophysiological, Behavioral, and Cognitive Networks in Movement Disorders

The purpose of this study is to investigate the brain activity associated with motor and non-motor symptoms of movement disorders, including Parkinson's disease (PD) and essential tremor. These movement disorders commonly have significant non-motor features, such as depression, cognitive and memory impairment, decreased attention, speech and language disturbances, and slower processing speeds. The investigators are interested in the brain activity associated with these motor and non-motor symptoms, and propose to investigate changes in brain activity while the investigators perform recordings of the surface and deep structures of the brain, in addition to the typical recordings the investigators perform, during routine deep brain stimulation (DBS) surgery.

Neurophysiology of the Basal Ganglia, Thalamus, and Cerebellum in Patients With Movement Disorders

The research study is being conducted to better understand parts of the human brain called the cortex, basal ganglia, thalamus, and cerebellum in patients with movement disorders (such as Parkinson's disease, essential tremor, dystonia, or ataxia). These brain structures are involved in movement disorders. This study attempts to better understand the brain electrical activity associated with these disorders, both in patients with and without deep brain stimulation (DBS). Recordings are made from the scalp with a noninvasive electrode and/or through the DBS stimulator if the participant has a stimulator model that is able to sense brain activity. These recordings are analyzed along with measures of movement disorder symptoms to identify brain signal signatures of symptoms.

Leg Stretching Using an Exoskeleton on Demand for People With Spasticity

The purpose of this research study is to develop a protocol using a fully wearable, portable lower-limb exoskeleton for improving leg and walking function in people with movement disorders. The study investigates the effects of wearing the device during a set of experiments including leg stretching, treadmill walking and overground walking in muscle activity, joint motion, and gait performance. The goal is to develop an effective lower-limb strategy to restore lost leg function (e.g., range of motion) and gait ability, and improve quality of life in people with movement deficits following a neurological disorder.

Moderate Versus High Volume Light-Moderate Intensity Exercise for People With Moderate Parkinson's Disease

Veterans with mid to later stage Parkinson's disease (PD) may not be able to work out as hard as they need to, to prevent brain cell loss. Maybe they could work out longer and more frequently to make up for this during their good times and good weeks and then rest during the bad weeks. The investigators will compare how effective working out a lot one week per month with a break of three weeks is to continuously exercising weekly with no breaks in people with mid stage PD. The investigators will look at how fast participants walk per minute, whether they become more physically active, the biochemicals in their blood, and at how stiff their blood vessels are before and after the exercise.

Abbott DBS Post-Market Study of Outcomes for Indications Over Time

The purpose of this international study is to evaluate long-term safety and effectiveness of Abbott deep brain stimulation (DBS) systems for all indications, including Parkinson's disease, essential tremor or other disabling tremor and dystonia.

Towards Restoring Complex Movement After Paralysis: Algorithm Development With Healthy Participants

Participants will perform experiments with non-invasive activity recordings. The study will record from multiple non-invasive signal sources that reflect motor intent that may include: electroencephalography (EEG), electromyography (EMG), functional near infrared spectroscopy (fNIRS), inertial measurement units (IMUs), eye movements, pupil size, and speech. Participants will wear all or a subset of these sensors and be asked to perform, imagine, or attempt movements or speech. The recorded sensor signals will be decoded to help guide an end effector, which may be a computer, robotic arm, wheelchair, or other assistive device. These experiments present minimal risk and participants may withdraw participation at any time for any reason. Participants may return for additional experiments if desired and to perform additional comparisons. If a participant withdraws during a comparison, another participant will be recruited to complete collection of data for that comparison.

Target ALS Biomarker Study; Longitudinal Biofluids, Clinical Measures, and At Home Measures

The goal of the study is to generate a biorepository of longitudinal biofluids-blood (plasma and serum), cerebral spinal fluid (CSF) and urine linked to genetics and longitudinal clinical information that are made available to the research community. To accomplish these goals, we will enroll 800 Amyotrophic Lateral Sclerosis (ALS) patients and 200 healthy controls from sites globally, over a 5 year time frame. Additionally, speech and motor function and spirometry measures will be collected bi-weekly in a subset of participants. ALS participants will be asked to come to the clinic for 5 study visits approximately every 4 months. Healthy participants will be coming for 2 study visits with a 12-month interval between visits. These samples and clinical information will be stored in a de-identified manner and made available for investigators to use in future research studies.

Clinical Research on Stem Cell Therapy for Parkinson's Disease

This study, through different administration methods, adopted a randomized, double-blind, placebo-controlled trial design to evaluate the safety and tolerability of human umbilical cord mesenchymal stem cells (hUC-MSCs) in patients with Parkinson's disease, explore their initial effectiveness and the relationship between biological active factors and therapeutic efficacy. The "Clinical Study on the Treatment of Parkinson's Disease with Human Umbilical Cord Mesenchymal Stem Cells" of this study is expected to provide clinical trial evidence for the development of safe and effective clinical cell therapies for patients with Parkinson's disease.

Validating a New Machine-Learned Accelerometer Algorithm Using Doubly Labeled Water

The purpose of this study is to validate previously developed physical function-clustered specific machine-learned accelerometer algorithms to estimate total daily energy expenditure (TDEE) in individuals with general movement and functional limitations.

Registry and Natural History of Epilepsy-Dyskinesia Syndromes

The Registry and Natural History of Epilepsy-Dyskinesia Syndromes is focused on gathering longitudinal clinical data as well as biological samples (blood, urine, and/or skin/tissue) from male and female patients, of all ages, who have a genetic diagnosis of epilepsy-dyskinesia syndromes. Through prospective review and molecular data analysis, the study aims to identify patterns and correlations between movement and seizure disorders, uncovering genotype-phenotype relationships. The initiative's goals are to enhance understanding of epilepsy-dyskinesia syndromes, inform precision medicine approaches, and foster international collaboration.

DIAMOND-Lewy Guidelines for Antipsychotic Use in Older Patients

The goal of this observational study is to learn about current practices for the acute neuropsychiatric management of older adults during emergency department (ED) visits. Researchers will compare current standard of care practices with implemented guideline practice to see if standardized medication guidelines help reduce the usage of antipsychotics and/or benzodiazepines during acute presentations. The main questions this study aims to answer are: * How many older adults are receiving antipsychotics or benzodiazepines during emergency department visits? * Why are older adults receiving antipsychotics or benzodiazepines during emergency department visits? * How many older adults who receive antipsychotics or benzodiazepines during emergency department visits have an underlying cognitive or movement disorder? * What effects does administration of antipsychotics or benzodiazepines during emergency department visits have on patient outcomes in older adults and adults with neurocognitive disorders? * Does implementation of standardized medication guidelines help reduce the usage of antipsychotics and/or benzodiazepines during acute presentations?

SLC13A5 Deficiency Natural History Study - United States Only

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.

Mobile Parkinson Observatory for Worldwide, Evidence-based Research (mPower)

The purpose of this study is to understand variation in the symptoms of Parkinson disease. This study uses an iPhone app to record these symptoms through questionnaires and sensors.

Long-read Genome Sequencing for the Molecular Diagnosis of Dystonia

Dystonia is a motor disorder caused by involuntary, intermittent, or sustained muscle contractions, leading to abnormal movements or postures. It can affect any body region and often results in significant functional disability and healthcare burden. Although its familial nature was recognized early on, the advent of high-throughput DNA sequencing has dramatically increased the identification of dystonia-associated genes. Dystonia now encompasses all modes of inheritance-autosomal dominant (e.g., TOR1A, KMT2B), autosomal recessive, X-linked, and mitochondrial-and over 100 genes have been implicated. Many forms involve structural variants (SVs) or copy number variations (CNVs), which are challenging to detect using standard short-read sequencing (srWGS). Molecular diagnosis is essential, ending the diagnostic odyssey and enabling genetic counseling, prognosis, reproductive planning, and-in some cases-targeted therapies. For instance, GNAO1-related dystonia may respond to deep brain stimulation, while dopa-responsive dystonia benefits from levodopa. Despite advances, srWGS has key limitations, especially for detecting repeat expansions, SVs, and phasing alleles. This likely explains the low diagnostic yield in dystonia compared to other neurological disorders, with over 70% of cases remaining unsolved. Long-read sequencing (lrWGS), such as Oxford Nanopore technology, overcomes many of these challenges by reading native DNA fragments thousands of bases long. It enables comprehensive detection of SNVs, indels, SVs, CNVs, methylation changes, and repeat expansions-including known and newly discovered pathogenic expansions (e.g., in NOTCH2NLC). It also allows phasing without parental samples, which is crucial in recessive cases. The investigators propose that lrWGS could significantly increase the diagnostic yield in dystonia, improving patient care, enabling appropriate genetic counseling, and paving the way for personalized treatment strategies.

Neuroimmunology Registry and Biobank

A variety of antineuronal antibodies have been detected in the cerebrospinal fluid (CSF) of patients with neurological diseases. This raises the question of whether these antibodies are disease-specific or merely an epiphenomenon of inflammatory processes in the brain. The registry was established with the following objectives: \[1\] Are antineuronal antibodies much more common than previously thought in various neurological disorders for which the etiology has not yet been elucidated? \[2\] Can further correlations, such as those between HSV infection and NMDA receptor autoimmunity, be identified? \[3\] Are these antibodies mainly non-specific epiphenomena or are they crucial for the pathogenesis? \[4\] What is the clinical course of patients with antineuronal antibodies and their response to therapy? These questions will be addressed in a broad immunohistological screening of a large number of CSF samples and a clinical database of patients with neurological disorders.

Global Registry: ExAblate Neuro MR Guided Focused Ultrasound (MRgFUS) of Neurological Disorders:

A global post approval study to collect safety and effectiveness data related to ExAblate Neuro for the treatment of certain disorders such as Essential Tremor, Parkinson's Movement Disorders, or Neuropathic Pain within the thalamus and/or pallidum.