119 Clinical Trials for Various Conditions
This research is being done to examine the effects of brain cooling on cognition, electrophysiological brain activity via EEG scans, inflammation of the brain, and mood in healthy subjects. Brain cooling has been shown to cause temporary symptom relief after traumatic brain injury, but its implications for general brain and mental health remain unexplored.
Stroke survivors frequently show persistent gait deficits in their chronic stages even after years of intensive rehabilitation. This may be caused by diminished capability of re-acquiring motor skills post stroke. Thus, the overall purpose of this research project is to examine stroke survivors' capability of learning a novel leg task over 3 visits, 1-2 weeks apart. The capability of learning a new skill is then correlated with the individual's neurological functions (nerve activity and movement coordination) and her/his gait performance (gait speed, gait symmetry, and force production).
The purpose of this study is to determine the effects of TMS on the ANS. The investigator will determine whether single-pulse TMS of the primary motor cortex in the dominant hemisphere in healthy, young adults will affect 1) heart rate and heart rate variability, 2) blood pressure and 3) baroreflex function. This study is foundational in that it will begin to characterize how single-pulse TMS affects the ANS in healthy adults.
Approximately 5.3 million people live with a long-term disability resulting from a traumatic brain injury (TBI) and between 5-8% of those older than 60 suffer from Alzheimer's disease or other forms of dementia (ADRD). Consequences of these conditions can result in dramatic and persistent changes in functioning, impacting not only the patients, but also loved ones who become informal support persons. Many existing services help the family in the moment, but do not address long-term wellness. Thus, the purpose of this research study is to compare the effect of two different types of group wellness treatments for individuals with chronic mild TBI, moderate to severe TBI, and ADRD and their support persons.
This Study aims to build a diverse and inclusive group of participants to help researchers advance our understanding of how signals and information collected from apps and devices relate to health and may be used to predict, detect, monitor, and manage changes in health. Participants will be asked to complete tasks and surveys, using their iPhone and Apple Research app which include: * Selecting the types of data they would like to share with the study such as health and sensor data * Complete tasks and surveys including areas such as personal demographic information, personal medical history, family history, and social determinants of health
The goals of this project are to study the biological effects of environmental toxins (ET), in particular aquatic toxins such as brevetoxins (PbTx) and microcystin or their metabolites. This study is designed to examine the effects of the body from harmful algae blooms (HAB) as well as possibility of an association between exposure to the marine toxin, brevetoxin (PbTx), which is released from K. brevis during the red tide bloom, and the prevalence of neurological illnesses.
The Epilepsy Learning Health System (ELHS) is a quality improvement and research network to improve outcomes for people with epilepsy. The ELHS is designed as a model of value-based chronic care for epilepsy as envisioned by the National Academies of Medicine Committee in their landmark reports "The Learning Health System" and "Epilepsy Across the Spectrum: Promoting Health and Understanding". The ELHS network is a collaboration among clinicians, patients and researchers that promotes the use of data for multiple purposes including one-on-one clinical care, population management, quality improvement and research. The ELHS Registry includes data on children and adults with epilepsy collected during the process of standard epilepsy care. These data are used to create population health reports and to track changes in outcomes over time. ELHS teams use quality improvement methods, such as Plan-Do-Study-Act (PDSA) cycles, to continuously learn how to improve care.
Sub-optimal transfer of clinical information during inter-hospital transfer (IHT, the transfer of patients between acute care hospitals) is common and can lead to patient harm. To address this problem, the investigators will use key stakeholder input to refine and implement an interoperable health information exchange platform that integrates with the electronic health record and improves the reliability of and access to necessary clinical information in three use cases involving transfer of patients between sending and receiving hospitals with varying levels of affiliation and health record integration. The investigators will assess the effect of this intervention on frequency of medical errors, evaluate the use and usability of this platform from the perspective of those that interact with it, and use these results to develop a dissemination plan to spread implementation and use of this platform across other similar institutions.
The study will evaluate a computer decision support system for child neurology, Child Health Improvement through Computer Automation - Child Neurology (CHICA-CN) using patient chart review, family phone surveys, and physician interviews in a before-after study design.
The purpose of this study is to collect clinical data, biological specimens (e.g., blood, tumor, cerebrospinal fluid, urine sample, etc.), and digital health data from patients with tumors, cancer and/or neurological disorders in order to perform research studies that could advance patient care. By collecting these specimens, the investigators plan to create and maintain a biorepository to make data and specimens available to collaborating investigators performing research to discover predictive biomarkers, patterns of care, and personalized treatments that could directly improve the care of our patients through focused proof-of-concept clinical trials.
This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
To estimate the impact of having a child with serious illness (SI) on the health and healthcare of other members of the child's family.
Can community outreach education help develop self-sustaining wellness and exercise programs, and will associated wellness clinics help persons with a neurological physical disability achieve better well-being?
We are the missing link in clinical trials, connecting patients and researchers seamlessly and conveniently using a mobile health platform to advance medical research. We make it easy for patients to contribute to research for medical conditions that matter most to them, regardless of their location or ability to travel.
This study, done in collaboration with Cornell University in New York, will explore the potential role of the body s immune response to gluten in ataxia. Celiac disease is an autoimmune disorder that is triggered by the ingestion of wheat gluten and related proteins in genetically susceptible individuals. Some people with celiac disease also develop ataxia, which is a loss of muscle coordination, leading to imbalance. The cause of the associated ataxia is not well understood, but it is suspected to be related to the immune response towards gluten in these patients. Preliminary results indicate that antibodies in people with celiac disease can react with brain proteins, which might have a role in the associated neurologic deficits. The aim of this study is to characterize the immune response in the ataxia that is associated with celiac disease. People 18 years of age and older with 1) ataxia and no celiac disease, 2) ataxia plus celiac disease and 3) matched healthy control subjects will be enrolled at the NIH. People with celiac disease only will be enrolled at Cornell University. All participants have a blood sample drawn for various tests of immune function as well as genetic tests. Healthy volunteers also have a history and physical examination if they have not had one done at NIH in the past year. Some patients may require additional clinical evaluations for clinical or diagnostic reasons.
This is a study of the genetic basis of brain dysfunction in people with schizophrenia.
The purpose of this study is to determine whether there are detectable health effects of low-level mercury exposure (from normal exposure to mercury-containing dental fillings) in the known target organs/systems affected by elemental mercury exposure.
This study aims to evaluate the specific and non-specific effects of hypnotherapy and to evaluate the efficacy of group-format gut-directed hypnotherapy (GDH) delivered via telehealth for managing gastrointestinal health.
The purpose of this clinical trial is to explore the effects of either a 2-week high-intensity interval training (HIIT) or breath training intervention on measures of overall health, circulating biomarkers of stress, and immune function. Specific aims include: - Does a 2-week HIIT or breath training intervention improve measurements of overall health, including heart rate variability, physical activity, sleep quality, and severity of depression, anxiety, and stress? -Does a 2-week HIIT or breath training intervention improve circulating concentrations of stress-related biomarkers? Does a 2-week HIIT or breath training intervention improve immune function? Researchers will compare HIIT and breath training to see if equivalent immune improvements are observed. Participants will: -Undergo 2 weeks of HIIT or breath training interventions at a frequency of 3 times per week for 30 minutes or 5 times per week for 5 minutes if placed into an intervention group. -Undergo testing measures at the two pre- and post-intervention time points, if placed in the intervention groups or the healthy control group.
The purpose of this study is to learn more about the effectiveness of a prescription wrist-wearable device called NightWare (NW) on improving sleep in Veterans with nightmares related to posttraumatic stress disorder (PTSD). The investigators also want to learn whether it improves cardiovascular health among this population.
This is a prospective, single-arm, observational study capturing data from whole-body magnetic resonance imagining (WB-MRI) from up to 100,000 male and female subjects 18 years of age or older recruited at multiple clinical sites within the United States. Study subjects must meet a set of inclusion and exclusion criteria. Potential subjects arriving at the study sites will be evaluated for enrollment. It is the Principal Investigator's (PI) responsibility to enroll only subjects who satisfy the inclusion/exclusion criteria. Recruitment can occur by subject presentation at the sites for elective standard screening, word-of-mouth, flyers, healthcare professional (HCP) referrals, advertisement online, or any other means, subject to approval by the associated institutional review board (IRB) or ethics committee (EC) when applicable.
This study is designed to assess the safety and PK/PD of GTB and Benzoic Acid (Benzoate) using a single ascending dose (SAD) study (under fasting conditions).
The REFRESH study is designed to collect data related to a signal in the brain that MindRhythm has named the Headpulse. The Headpulse occurs as a natural movement of the brain in conjunction with the beating of the heart. 500 "normal" subjects who are considered healthy as they do not have any current known neurological injury will collect the brain signal data from the non-invasive headband style headset for a duration of 3 minutes either once or multiple times. Upon consenting to participate to the study by way of the accompanying MindRhythm app, participants will be sent a Harmony headset kit which will include ECG leads to collect cardiac data in conjunction with the brain signal. The participant will receive training materials and instructions on how to collect and transmit data to investigators by way of the MindRhythm app. The data collected by these "normal" patients will be used as a comparator to individuals who are suspected of neurological injury. This data will assist in training the data analysis algorithm to optimize its diagnostic abilities in detecting neurological injury or abnormalities including but not limited to stroke, stroke type, and concussion. The data set will also be analyzed to determine how the signal varies within an individual and amongst other "normals." An additional benefit of collecting this data will be to gain knowledge related to the ergonomic factors of the app and the headset and its "user friendliness."
This cluster randomized pragmatic clinical trial will test the effectiveness and feasibility of embedding the Tele-Savvy intervention, a psychoeducational program for family and other informal caregivers of older adults living in the community with Alzheimer's disease and related dementia (ADRD), in two health care systems/clinical sites: UConn Health in Farmington, Connecticut, and Emory Healthcare in Atlanta, Georgia.
The objective is to determine the prevalence of visual dysfunction in People with Parkinson's Disease (PwP). The investigators will administer the: Visual Impairment in Parkinson's Disease Screen and Revised-Self-Report Assessment of Functional Visual Performance. Patients seen at Fixel Institute and their caregivers will be invited to participate. Responses to the 2 questionnaires will help determine prevalence rates of visual dysfunction in PwP compared to those both with and without other neurological conditions.
This is a nationwide research program to study the neurological effects of COVID-19. It is open to the public. Healthy individuals and individuals who are or have been infected with COVID-19 are encouraged to join the effort. The study can be done at home with internet access and an iPad or iPhone. Participation takes about one hour. To learn more, go to https://www.mirohealth.com/consent/
The purpose of the study is to use a new method of high-density electroencephalogram (HD-EEG) recording to map brain areas important for movement, sensation, language, emotion, and cognition.
Research is being conducted to better understand the physiologic effects (relating to the action of a drug when taken by a healthy person) of opioid use on oculomotor (relating to the motion of the eye) dynamics and to identify the presence of characteristics consistent with a specific drug or class of drugs.
NIH Precision Medicine Initiative, started in May 2018, will enroll one million people through an online portal. It hopes to identify genetic variants affecting a variety of human phenotypic outcomes. A giant set of data like this may enable an association of genetic variants with a certain phenotype. However, the association is often compromised due to the collection of phenotypic data that is not well controlled or standardized creating "noisy" data. These phenotypic "noises" can be largely eliminated in clinical studies with stringent criteria and standardization of outcome measurements. In this study, by looking mainly at genetic information and nerve conduction speed, we hope to eliminate the extra "noises" in the data set. Eliminating the extra "noises" should allow us to be able to determine if there are genetic differences between neurological disorders and healthy controls, and if these genetic differences can be attributed to the speed of the nerve conduction.
In this research study the investigators want to learn more about the quality of life before, during and after cancer treatment in patients with central nervous system brain tumors. Often CNS tumors and cancer treatment can cause many physical and emotional problems and side effects. Some of these problems and treatment side effects can cause a change in a patient's qualify of life and overall well-being. Quality of life questionnaires are used to measure well-being and ability to carry out daily activities by asking patients to answer several questions about their physical, emotional, and social well-being. In this research study we want to find out if patient's answers to these questions change over the course of your treatment. We also want to see if doctors and nurses can use these answers to the questions to help patients feel better and increase their activity during cancer treatment.