42 Clinical Trials for Various Conditions
The current pilot study will recruit participants experiencing new, returning, or ongoing symptoms related to COVID-19 illness for at least four weeks after being first infected with SARS-CoV-2. All participants will attend a virtual 6-week course entitled Mindful Awareness Practices (MAPs) created, hosted and led by expert facilitators from the Mindful Awareness Research Center (MARC) at University of California Los Angeles (UCLA). This intervention will consist of a mix of lecture, practice, group feedback, and discussion regarding mindfulness. Mindfulness is the mental state achieved by focusing one's awareness on the present while acknowledging and accepting any feelings, thoughts, or bodily sensations. The research team will collect self-reported measures of mental health symptoms, physical health symptoms, and demographic information before and after participants attend MAPs. Objective health measures will also be collected by the research team including an active stand test, a 6-minute walk, and a blood sample.
The purpose of this study is to evaluate whether Northera (Droxidopa) is safe and effective in young adults with Menkes disease who survived the most severe complications of their illness or adults with occipital horn syndrome (OHS), who have trouble with intermittent low blood pressure and other symptoms of dysautonomia. The outcomes and information from this study may help adult survivors of Menkes disease and individuals with OHS lead more normal day-to-day lives.
Dysautonomia is malfunction of the autonomic nervous system. It usually results from overactivity of the sympathetic portion and over-secretion of acetylcholine. Symptoms depend on the organ involved by this sympathetic overstimulation. Involvement of the gastrointestinal system results in chronic dysmotility, nausea, vomiting, food intolerance, weight loss and need for feeding tube placement and/or parenteral feeding. Autonomic celiac ganglia resection has been shown to alleviate symptoms as it interrupts the sympathetic stimulation to the gastrointestinal (GI) system, however there is no pre surgery test to confirm the diagnosis. The investigators' objective is to temporarily block the celiac ganglion with a long acting anesthetic (liposomal bupivacaine). If symptoms abate the diagnosis is confirmed and patient will proceed to surgery.
The purpose of this research study is to better understand what causes dysautonomia and how this affects blood pressure and pulse. Dysautonomia is a condition of the autonomic nervous system. It is associated with fluctuations in blood pressure and pulse and may cause symptoms of nausea and belly pain, fatigue, excessive thirst, lightheadedness, dizziness, feelings of anxiety or panic, and fainting. A common example of dysautonomia is postural orthostatic tachycardia syndrome or POTS. Sometimes symptoms worsen when people move from lying down to standing, called orthostatic intolerance. We would like to learn more about the link between orthostatic intolerance and nausea. While medications currently used to treat orthostatic intolerance and nausea have proven to be effective in some patients, this may not be the best treatment for everyone as long term use could pose certain risks including high blood pressure. In order to provide a more focused and safer treatment for patients suffering from nausea and orthostatic intolerance, we have looked at how the blood pressure, pulse, and certain blood tests change during a tilt table test. This test helps to create the same circumstances that patients with orthostatic intolerance experience when they stand. To better understand if some of these problems are associated with the brain, we will study MRI in patients with dysautonomia compared to children without dysautonomia. This information may allow us to use alternative and safer treatments in the future.
It is known that 33-50% of Classic and Hypermobile Ehlers-Danlos Syndrome patients eventually develop dysautonomia, otherwise known as "POTS" (Postural Orthostatic Tachycardia Syndrome). Some of these patients develop dysautonomia as a result of a retroflexed odontoid, Chiari 1 Malformation or cranial settling and the resulting basilar impression. Many Ehlers-Danlos patients suffer with the same symptomology with no evidence of a cause according to MRI imaging. It is the author's hypothesis that low-level External Communicating Hydrocephalus appears to be responsible for the constellation of autonomic and cranial nerve symptoms, and if present in the very young, an analysis of head circumference growth in the first 15 months of life should reflect abnormally rapid head growth, supporting this hypothesis.
Main aim will be to compare in patients with cardiac dysautonomia, newly developed disease specific questionnaire to established generalized SF-36 and EQ-5d questionnaires, as there are no disease specific questionnaires for comparison. These novel and established questionnaires will then be compared among groups who have relatively stable disease or stable symptoms with patients who will be expected to have a change in symptoms and QoL.
The purpose of this placebo controlled interventional study is to collect preliminary data on administering dexmedetomidine in patients with Familial Dysautonomia (FD) during a rapid cessation of autonomic crisis. The primary aims are to assess the feasibility and evaluate if measurements of heart rate, blood pressure and oxygen saturation can predict the start of an autonomic crisis. Funding Source- FDA OOPD
This is a pilot open-label study to evaluate the feasibility of conducting a clinical trial using sublingual dexmedetomidine sublingual film to treat hyperadrenergic autonomic crises in patients with Familial Dysautonomia at home. The primary aims are to examine the feasibility of performing a clinical trial using dexmedetomidine at home to terminate autonomic crisis, and refine the interventions and assessments used to evaluate autonomic crisis termination.
The study will collect clinical information from patients with FD and allow them to give blood to help develop biological markers of the disease to aid diagnosis and treatment. This is a non-invasive, non-interventional, observation study that poses only minimal risk for participants. The study will document the clinical features of patients with FD overtime by storing their routine clinical test results in a central database. The study will involve collaborators at other specialist clinics around the world who follow/evaluate patients with FD annually. Providing blood for future use is optional.
This is a single-blind, placebo-controlled, telemedicine clinical trial to assess the efficacy of cognitive behavioral therapy (CBT) in adult patients 18 years and older with familial dysautonomia (FD) and anxiety and/or depression and/or obsessive compulsive or related disorders. The trial will enroll 20 adult patients each with FD who have anxiety and/or depression and/or obsessive compulsive or related disorders by the DSM V criteria. Enrolled participants will be allocated to receive, in a non-randomized fashion, weekly 5-10 min talking sessions (i.e., placebo) for 8 weeks, followed by weekly 30-60 min CBT sessions during 8 weeks. Although investigators will be un-blinded to the intervention, participants will be blinded to the expected effects of each intervention. Both the talking sessions (i.e., placebo) and CBT sessions will be performed via telemedicine either via a HIPAA secure telemedicine platform or the telephone based on the preference of the individual patient. If a patient specifically requests talking or CBT sessions to be performed in person, this will be accommodated. The use of telemedicine is to accommodate disability and potential physical limitations of this unique patient population. The CBT sessions will be supervised by Lily Armstrong, certified mental health therapist and Dr. Thomas Boes, NYU Clinical Assistant Professor in the Departments of Psychiatric and Neurology.
In previous work the investigator identified a group of children between the ages of 10-18 years whose diagnostic workup for chronic nausea unexplained by conventional diagnostic tests has unexpectedly revealed underlying cardiovascular instability manifesting as orthostatic intolerance, primary defined as postural orthostatic tachycardia syndrome (POTS) (88%). While this is an atypical initial presentation for orthostatic intolerance in general, the investigator believes that the cardiovascular problem is serious and represents a cause of the nausea in a majority of these individuals, as treatment of the POTS with fludrocortisone reduced the symptoms of nausea. While fludrocortisone treatment abrogates the fall in baroreflex sensitivity (BRS) during tilt in part, it did not completely correct the tachycardia symptoms or the BRS suppression during HUT. Furthermore it caused an elevation in MAP in supine position, which may lead to future cardiovascular problems such as early onset hypertension and cardiac hypertrophy. This argues for a different treatment approach. The investigator presents preliminary data in this application revealing that OI subjects tend to have lower 25-hydroxy vitamin D (25(OH)D) compared to non OI subjects.
To determine the effect of cognitive behavioral therapy (CBT) in the severity of anxiety and depression in adult patients with familial dysautonomia. Patients will be enrolled in an 8-week CBT program. All CBT sessions will be done either in person at the NYU Dysautonomia Center or over the phone to help accommodate disability and potential physical limitations of our patient population.
This is a pilot clinical trial of dronabinol to treat disabling attacks of nausea and vomiting in patients with familial dysautonomia (FD, also known as Riley Day syndrome or hereditary sensory and autonomic neuropathy type III). FD is a rare autosomal recessive disease in which the growth and development of selective nerves is impaired. Patients with FD suffer recurrent uncontrollable nausea and vomiting crises accompanied by skin flushing, tachycardia and arterial hypertension. Current treatments of nausea are ineffective or have intolerable side sides. Our long-term goal is to treat nausea effectively and without side effects, a therapeutic intervention that would markedly improve the quality of life of patients with FD.
Familial dysautonomia (FD) is a devastating hereditary disease in which the development of selective neuronal populations is impaired because of a deficiency of the protein IKAP (Slaugenhaupt, 2002). There is no known cure. Treatments are supportive, often ineffective and around half of all patients die before reaching age 40 (Axelrod et al., 2002). Phosphatidylserine is an FDA approved food supplement that was shown recently to correct the genetic abnormality and restore IKAP protein levels in cell lines derived from patients with FD (Keren et al., 2011) and a humanized mouse model of the disease (Bochner et al., 2013). Despite its safety and efficacy in this fragile population being unknown, many patients with FD are currently taking phosphatidylserine The investigators propose to conduct a safety, tolerability and early proof of concept efficacy study of phosphatidylserine in patients with FD. The study will be divided into two independent arms. The first phase of the study will be an open-label dose titration study to determine the safety and optimal dose of phosphatidylserine and its effect of normal IKBKAP mRNA levels in 40 patients with FD. The second phase will be a longitudinal observational study in which we will follow, on a yearly basis, patients with FD of all ages who opt to take phosphatidylserine. In this study, we will evaluate the long-term safety of phosphatidylserine in patients with FD and hope to determine whether phosphatidylserine has any impact on the clinical evolution of the disorder. Our long-term goal is to find an effective therapy that will improve the quality of life for patients with FD and alter disease prognosis. We believe that the promise of phosphatidylserine and its availability in health food shops warrants a controlled safety, tolerability and efficacy study to determine whether it should be taken by patients with FD. This study is not intended to determine whether phosphatidylserine has a new indication to treat FD.
This is a study of kinetin, a nutritional supplement that corrects the mRNA splicing defect in patients with familial dysautonomia (FD, also known as Riley Day syndrome or hereditary sensory and autonomic neuropathy type III). FD is a rare fatal autosomal recessive disease in which the growth and development of selective neuronal populations is impaired. The disease is the result of a point mutation in the gene sequence that encodes for kinase complex associated protein (IKAP) in chromosome 9q31. The mutation, at the start of the non-encoding intron 20, weakens the splice site, causing the spliceosome to wrongly join together exons 19 and 21 when transcribing the mRNA strand and miss out exon 20. The mutated mRNA produces a short unstable IKAP protein that is quickly degraded. Interestingly, the mutation does not lead to a complete loss of function. Instead, it results in a tissue specific deficiency in splicing efficiency with both normal (wild type) and mutant IKAP mRNA being expressed in different ratios in different tissues. Some cells, like fibroblasts, produce mostly normal mRNA and protein, where as others, like neurons, produce mostly mutant mRNA and almost no functional protein product.
Evaluate the effects of bronchodilator therapy on respiratory function. Our overall goal is to determine whether, in patients with familial dysautonomia (FD), there is a component of airway obstruction that is reversible. To this end, we will evaluate airway resistance before and after receiving the anti-cholinergic ipratropium (Atrovent ®) and the beta-2-agonist albuterol (ProVentil®/Ventolin®). We predict that the response to either drug will depend on the underlying level of sympathetic and parasympathetic activity and airway tone. We will then determine the cardiovascular effects of inhaled ipratropium and albuterol in patients with FD. Because patients with FD have fewer sympathetic neurons and denervation supersenstivity, we predict that following albuterol inhalation, there will be non-selective activation of alpha-1-adrenergic receptors. Furthermore, because of a congenital defect in the afferent baroreceptor neurons that sense blood pressure, we suspect that the resulting vasoconstriction will be unopposed leading to a pressor effect. We hypothesize that inhalation of the anti-cholinergic ipratopium will produce little rise in heart rate, due to the extent of parasympathetic denervation to the heart.
The proposed intervention is focused on developing and implementing a psychological approach incorporated into a group-based outpatient intervention for pediatric autonomic dysfunction. The investigators hypothesize that their intervention will result in improvements in the transdiagnostic mechanisms specifically targeted by components of their intervention including sleep, information processing, and youth/parent experiential avoidance.
The overall study objectives are to determine whether carbidopa (Lodosyn®) is safe and well tolerated and to assess whether it can inhibit catecholamine-induced paroxysmal hypertension and normalize or reduce the exaggerated blood pressure variability in patients with familial dysautonomia (FD, also called hereditary sensory and autonomic neuropathy type III or Riley-Day syndrome). Funding Source- FDA OOPD.
Disorders of gut-brain interaction (DGBI) affect up to 25% of U.S. children. Patients often suffer from disabling, multisystem comorbidities that suggest a common root (sleep disturbances, fatigue, anxiety, etc). Yet, DGBI are defined and treated based on GI symptom origin (cyclic vomiting, dyspepsia, irritable bowel) rather than underlying pathophysiology. Many patients manifest comorbidities suggesting an underlying autonomic nervous system (ANS) dysregulation (palpitations, dizziness, cognitive dysfunction). Unfortunately, due to common features of anxiety and visceral hyperreactivity and lack of obvious pathology, children with DGBI are frequently diagnosed with psychosomatic or 'benign, functional disorders' and treated with empiric antidepressants despite lack of scientific support and risks of serious side effects. Little is known about the underlying brain-gut mechanisms linking these comorbidities. A lack of targeted treatment options naturally follows the paucity of mechanistic data. A dysregulated ANS response circuit via brainstem nuclei is linked to visceral hypersensitivity. As the team's prior research has shown, ANS regulation can be non-invasively measured via several validated indices of cardiac vagal tone. Using the novel vagal efficiency (VE) metric, the investigators have demonstrated inefficient vagal regulation in cyclic vomiting syndrome and pain-related DGBI and that low VE predicts response to non-invasive, auricular percutaneous electrical nerve field stimulation (PENFS) therapy. PENFS targets brainstem vagal afferent pathways and, along with brain-gut interventions such as hypnotherapy, are the only therapies currently proven effective for pediatric DGBI. Individualizing neurostimulation based on sensory thresholds while assessing dynamic ANS reactivity offers a path towards personalized medicine using the most effective therapies to date. This proposal will test the feasibility of an ANS tracking software in assessing real-time, autonomic regulation and providing individualized neurostimulation in children with nausea/vomiting and ANS imbalance.
The goal of this study is to investigate a new treatment for chronic symptoms after concussion or mild traumatic brain injury in people aged 18-65 years old. Chronic symptoms could include dizziness, headache, fatigue, brain fog, memory difficulty, sleep disruption, irritability, or anxiety that occurred or worsened after the injury. These symptoms can interfere with daily functioning, causing difficulty returning to physical activity, work, or school. Previous concussion therapies have not been personalized nor involved direct treatments to the brain itself. The treatment being tested in the present study is a noninvasive, personalized form of brain stimulation, called transcranial magnetic stimulation (TMS). The investigators intend to answer the questions: 1. Does personalized TMS improve brain connectivity after concussion? 2. Does personalized TMS improve avoidance behaviors and chronic concussive symptoms? 3. Do the improvements last up to 2 months post-treatment? 4. Are there predictors of treatment response, or who might respond the best? Participants will undergo 14 total visits to University of California Los Angeles (UCLA): 1. One for the baseline symptom assessments and magnetic resonance imaging (MRI) 2. Ten for TMS administration 3. Three for post-treatment symptom assessments and MRIs Participants will have a 66% chance of being assigned to an active TMS group and 33% chance of being assigned to a sham, or inactive, TMS group. The difference is that the active TMS is more likely to cause functional changes in the brain than the inactive TMS.
An assessment of the effectiveness of Stellate Ganglion Block in alleviating symptoms of Long COVID-19.
To further characterize Long COVID-19 by collecting data from individuals who already own wearable devices or are provided with a wearable device along with basic and enhanced educational materials to determine if both can improve Long COVID-19 symptom management and post-exertional malaise.
The main purpose of this study is to gather data and assess changes in patient-reported outcomes with the stellate ganglion blocks as treatment for their sympathetically-mediated long COVID symptoms.
The goal of this proposed clinical case series is to evaluate the effect of a non-invasive vagus nerve stimulation paradigm on: 1) Symptom reporting via validated patient reported outcomes, and 2) objective clinical biomarkers of autonomic nervous system function. This will be a placebo controlled, randomized controlled trial with a crossover design built in. This study will aim to recruit 40 people with Long COVID to be a part of this research.
Parkinson's disease (PD) is the second most common neurodegenerative disorder worldwide. Besides causing symptoms that impair movement, PD also causes non-motor symptoms, such as problems thinking and orthostatic hypotension (OH), i.e., low blood pressure (BP) when standing. About one-third of people with PD have OH, which can cause sudden, temporary symptoms while upright, including lightheadedness, dizziness, and fainting. People with PD and OH can also experience problems thinking that happen only while upright and not while sitting - this can occur without other symptoms, such as feeling dizzy or faint. However, the level of low BP that can affect thinking remains unknown, and no guidelines exist for treating OH when it happens without symptoms. This is significant because OH could be a treatable risk factor for thinking problems in PD, but OH is often not treated if people do not report obvious symptoms. This project's goal is to determine how BP affects brain function in PD. The proposed experiments will measure BP and brain blood flow continuously in real-time using innovative wearable technology. Persons with PD with OH and without OH will undergo repeated cognitive tests while supine (lying down) and while upright. I will study the associations between BP, thinking abilities, and brain blood flow, and will compare groups with and without OH. These findings could be important because if a certain level of BP correlates with thinking abilities, then treating OH in PD may prevent thinking problems, which would improve health-related quality of life and reduce disability and healthcare costs.
Background: Most people who are referred to the EMG (Electromyography) Section of the NIH are enrolled into specific active studies. This allows researchers to learn about a range of rare neuromuscular disorders. But study criteria may not give researchers the chance to evaluate a single person or study a common symptom. Therefore, researchers want to assess people with neuromuscular disorders who are not currently enrolled in any NIH studies. They will perform tests on these individuals in the EMG Lab. Then they will create a repository of data that may be used for future research. This will help them learn more about these disorders. Objective: To retain data that is collected as part of participant visits to the NIH. Eligibility: People aged 18 and older who will be visiting the NIH for evaluation of their neuromuscular disorder. Design: Participants will be screened with a medical record review. Participants will have a physical exam. They will be evaluated for their neuromuscular disorder. They may have tests to learn more about how their nerves and muscles work that are called nerve conduction and EMG studies. Their muscles and nerves may be assessed with an ultrasound. Their ability to sweat may be measured. Their heart rate and blood pressure may be taken. Changes to their breathing or changes in their body position may be measured. Participant data will be given a unique numerical identifier that can be used if the data is shared. Data will be stored on a server and in a database. Participants will have 1-2 visits. Each visit will last less than 4 hours. They may be contacted for a follow-up visit.
Myalgic encephalomyelitis/Chronic fatigue syndrome (ME/CFS), otherwise known as Chronic fatigue syndrome (CFS) or myalgic encephalomyelitis (ME), is an under-recognized disorder whose cause is not yet understood. Suggested theories behind the pathophysiology of this condition include autoimmune causes, an inciting viral illness, and a dysfunctional autonomic nervous system caused by a small fiber polyneuropathy. Symptoms include fatigue, cognitive impairments, gastrointestinal changes, exertional dyspnea, and post-exertional malaise. The latter two symptoms are caused in part by abnormal cardiopulmonary hemodynamics during exercise thought to be due to a small fiber polyneuropathy. This manifests as low biventricular filling pressures throughout exercise seen in patients undergoing an invasive cardiopulmonary exercise test (iCPET) along with small nerve fiber atrophy seen on skin biopsy. After diagnosis, patients are often treated with pyridostigmine (off-label use of this medication) to enhance cholinergic stimulation of norepinephrine release at the post-ganglionic synapse. This is thought to improve venoconstriction at the site of exercising muscles, leading to improved return of blood to the heart and increasing filling of the heart to more appropriate levels during peak exercise. Retrospective studies have shown that noninvasive measurements of exercise capacity, such as oxygen uptake, end-tidal carbon dioxide, and ventilatory efficiency, improve after treatment with pyridostigmine. To date, there are no studies that assess invasive hemodynamics after pyridostigmine administration. It is estimated that four million people suffer from ME/CFS worldwide, a number that is thought to be a gross underestimate of disease prevalence. However, despite its potential for debilitating symptoms, loss of productivity, and worldwide burden, the pathophysiology behind ME/CFS remains unknown and its treatment unclear. By evaluating the exercise response to cholinergic stimulation, this study will shed further light on the link between the autonomic nervous system and cardiopulmonary hemodynamics, potentially leading to new therapeutic targets.
Traumatic brain injury (TBI) is frequently associated with a hyperadrenergic state accompanied by elevated levels of plasma catecholamines. In its more severe presentation, the hyperadrenergic state presents as dysautonomia, which is characterized by paroxysmal alteration in vital signs, including tachycardia. The investigators hypothesize that intravenous (IV) esmolol is as effective at controlling heart rate in hyperadrenergic states as oral propranolol, which is the standard of care. Our primary endpoint is efficacy of IV esmolol vs a PRN regimen of intermittent B-blockade in controlling heart rate below a pre-specified level (\< 100 bpm) after Traumatic Brain Injury (TBI) or hemorrhagic neurologic injury. Heart rates will be recorded continuously as well as hourly.
Background: Sj(SqrRoot)(Delta)gren s Syndrome (SS) is an autoimmune disease that affects the glands that produce saliva and tears, causing dry eyes and dry mouth. Researchers do not know the exact cause of SS, but they believe that it may be caused by abnormalities in the autonomic nervous system (ANS) that stimulate these glands. Objectives: To better understand ANS function in patients with SS. To compare information about ANS function in healthy individuals and in patients with SS. Eligibility: Patients with Sj(SqrRoot)(Delta)gren s Syndrome who are 18 years of age and older, and who are not pregnant or breastfeeding. Participants will be asked to taper or discontinue the use of certain medications or dietary supplements before the ANS testing. Participants must be willing to discontinue the use of alcohol and tobacco 24 hours prior to testing. Design: The study will require one inpatient admission and/or outpatient visits to the NIH Clinical Center. The following tests and procedures will be performed: * Saliva, tear, and sweat production measurements to evaluate the function of glands. * Testing of changes to the cardiovascular system, including blood pressure and blood flow testing, and an electrocardiogram designed to evaluate hemodynamic changes controlled by the ANS. * Testing of changes to the gastrointestinal system, including a swallowing assessment study, barium swallow study, and gastric emptying study designed to evaluate gastrointestinal function controlled by the ANS. * Tests to evaluate the ANS function in response to certain drugs (edrophonium, glucagon and acetylcholine). * Self-reported questionnaire on ANS function and emotional/psychological well-being. Additional procedures and tests may include the following: * Blood samples. * Optional skin biopsy to study sweat glands and nerve supply of the skin.
The purpose of this study is to see if some people with postural tachycardia syndrome (POTS) have higher levels of immune proteins (autoantibodies) directed against receptors of the autonomic nervous system, and if these autoantibodies make a difference in their POTS symptoms. The investigators also want to see if the levels of these autoantibodies stay the same over time.