6,523 Clinical Trials for Various Conditions
The objective of this research study is to understand how Deep Brain Stimulation (DBS) targeting the subthalamic nucleus (STN) affects cognitive networks in the brain, potentially leading to cognitive decline in patients with Parkinson's Disease (PD). A total of 55 participants with PD who have undergone DBS surgery will be recruited from MUSC's Clinical DBS Program. Participants will attend two post-DBS visits: a 3-hour visit for consent, demographic, and cognitive assessments, and a 3-hour DBS-MRI visit to evaluate brain network connectivity with stimulation ON and OFF. These findings will help improve patient selection for surgery and optimize the selection of stimulation targets that minimize undesirable cognitive side effects.
Chronic headaches are associated with changes in brain structure and function that may be associated with increased suffering and disability. Understanding how Osteopathic Manipulative Therapy (OMT) affects these changes would reveal new insight into how the brain processes pain and returns to normal function. Also, demonstrating these changes would provide evidence regarding how OMT causes a reduction in pain and disability, supporting the recommendation for OMT as a primary treatment option for headaches.
Patients with heart failure (HF) exhibit greater structural brain alterations and higher dementia risks than the general population. Neural atrophy in nearly every region of medical limbic circuit has been observed in HF patients. Reduction of cerebral blood flow has been suggested as the pathophysiological pathway linking HF and structural brain changes. Indeed, lower cardiac index levels were related to lower cerebral blood flow in older adults without stroke, dementia, or heart failure. A few prior studies have examined the subcortical structural differences in patients with HF compared to controls. Brain volume loss (including putamen and hippocampal volumes) have been reported in patients with low ejection fraction. Significant gray matter loss was found in specific brain regions of HF patients and included structures that serve demonstrated roles in cognitive functions. In the investigator's previous study (Comprehensive Imaging Exam of Convalesced COVID-19 Patients - COVID-19 RELATED SUBMISSION-IRB00252436), involving 100 participants (volunteers with normal heart function (ejection fraction; 50%)), the investigators observed significant correlations between thalamic volumes and ventricular stroke volumes in volunteers. Building on these findings, the investigators intend to expand the research to include individuals with heart failure (HF), employing the same MRI protocol. The study will involve obtaining a set of T1-weighted brain images to measure the volumes of seven subcortical structures. The investigators goal is to explore the relationship between subcortical volumes and cardiac parameters. Additionally, the investigators will examine whether patients with HF experience a more rapid reduction in subcortical volumes compared to those with normal cardiac function (EF;50%).
Background: Magnetic resonance imaging (MRI) is a tool for getting pictures of the tissues and organs inside the body. MRI can help diagnose many injuries and diseases. But not all patients are equally likely to receive MRIs. Factors such as race or ethnicity, distance to imaging centers, mobility, and a lower income can limit some people s access to MRIs. A new ultra-low field (ULF) type of MRI, which can be used on a vehicle, may help take imaging scans to more people. But researchers need to know that UFL-MRI works just as well as standard MRIs. Objective: To learn whether UFL-MRI is as good as standard MRI at detecting neurological disorders. Eligibility: People aged 3 years or older who have or show symptoms of neurological disease (such as stroke, cancer, or epilepsy). Healthy adults are also needed. Design: Participants will have 1 or 2 study visits. Adult participants will have a physical exam. They will receive two MRI exams: * Standard MRI. They will lie still on a narrow bed that will move into a large tube. They will wear earplugs to muffle the sounds. * ULF-MRI. They will lie on a stretcher, and only their head will be inside a smaller tube. The noises will be quieter. They will wear earplugs to muffle the sounds. Some adults may receive a contrast agent given through a small tube attached to a needle in the arm. The contrast agent helps the researchers see differences in the body more clearly. This may be done during 1 or both MRIs. Children will have only 1 ULF-MRI. Some participants may be invited to have additional visits for up to 6 months.
Nearly two-third of patients with myotonic dystrophy type 2 (DM2) report that impaired cognition is among the most disabling symptoms and deeply affects their quality of life. Yet, relatively little is known about how DM2 affects brain structure and cognitive function as brain imaging studies in DM2 are extremely limited. This is a prospective, cross-sectional study of brain structure and function on cognitive and motor performance in patients with DM2 compared to healthy controls. All participants will undergo magnetic resonance imaging (MRI) to evaluate brain structure and white matter integrity, a comprehensive battery of cognitive and motor measures, self-reported questionnaires, and blood collection for brain-based biomarker analysis. A subset of participants will undergo lumbar puncture for cerebrospinal fluid (CSF) collection for additional biomarker analysis and validation. This work is critical to inform the development of rigorous clinical trial designs and plan for a longitudinal study to evaluate MRI measures as imaging biomarkers of disease progression and therapeutic response in DM2.
This study is a randomized controlled trial (RCT) that compares the effects of two different 12-month aerobic walking exercise programs on cognitive processing speed (CPS), brain MRI, and other functional outcomes in 32 adults with multiple sclerosis (MS) who are able to walk without an assistive device but demonstrate slowed CPS. Participants (N=32) will initially undergo screening via telephone, and after satisfying relevant inclusion/exclusion criteria, will provide informed consent, followed by a baseline assessment of CPS remotely via a HIPAA-compliant virtual platform (i.e., Zoom for Healthcare). This assessment will also serve as a screen for ensuring impaired CPS. Following this virtual session, participants will come into Kessler Foundation (KF) and complete a 3-hour baseline assessment (T0) that includes a relatively short battery of neuropsychological tests, a 40-minute MRI scan, tests of walking function, a short questionnaire packet, followed by cardiopulmonary exercise testing on a motor-driven treadmill. Following T0, participants will be randomly assigned into one of the two aerobic walking ET programs that are remotely-delivered and supported by KF research assistants. As the conditions are delivered and supported remotely by KF personnel, the exercise itself takes place in the home/community setting. Both conditions involve behavior coaching via Zoom for Healthcare. The experimental condition involves high-frequency, high-intensity aerobic walking ET that exceeds the published guidelines for physical activity for adults with MS (GEMS+). GEMS + initially involves 10 minutes of moderate intensity aerobic walking exercise for 3 days per week and progresses to upwards of 40 minutes of vigorous intensity aerobic walking exercise for 5 days per week by month 12. The comparison condition involves mild-to-moderate aerobic walking exercise training that approximates published guidelines (GEMS). GEMS initially involves 10 minutes of light intensity aerobic walking exercise for 2 days per week and progresses up to 30 minutes of moderate intensity aerobic walking exercise for 3 days per week. Both conditions further will be monitored based on Fitbit-measured steps per exercise session. Of note, the sample size will be enrolled using 2 overlapping waves (Wave 1 = 14 participants, Wave 2 = 18 participants), 3 months apart. Participants will return to KF at the mid-point (i.e., T6) and end-point (i.e., T12) of the 12-month intervention period to complete the same assessments as T0. The T6 and T12 outcomes will be administered by treatment-blinded research assistants.
This research is being done to investigate the dietary supplement, Synaquell (TM), for effects on brain function in youth ice hockey players.
This pilot project is a brief, open-label clinical trial of probiotics as an intervention in heavy drinkers. Heavy drinkers who do not yet show significant signs of liver disease may stand to benefit from probiotics, but no clinical trials to date have addressed this population. This study will recruit heavy drinkers to complete an open-label within-subjects trial. The study will investigate effects of probiotics on specific biomarkers in healthy heavy drinkers who currently are not seeking to change their alcohol use (i.e., are non-treatment-seeking).
The purpose of this study is to investigate the dietary supplement, Synaquell (TM), for effects on brain function.
The main goal of this research is to determine the role of several brain regions in memory processes and cognitive functions. Participants will be remotely supervised via video chat while self-administering tDCS, a form of non-invasive brain stimulation. Before participating in the experiment, participants will be properly trained on use of the remote tDCS device and screened for eligibility. While using the tDCS device, participants will be engaging in tasks that assess different aspects of memory and executive functioning. By using remotely supervised tDCS while participants are completing these cognitive tasks, we will be able to make causal claims about the role of the targeted brain regions in different cognitive processes.
The spread of cancer to the brain is referred to as brain metastases. Brain metastases are a common complication of cancer. This study is being done to determine whether the use of a new imaging agent, 18F-fluciclovine, is able to detect which patients are responding to radiation therapy. In addition, this study will look at the changes of the treated brain metastases using this imaging agent over time.
This study is a randomized clinical trial to test the effect of a type of non-invasive brain stimulation on the response to a behavioral intervention designed to enhance cognitive control over food cravings in obese and overweight women. The brain stimulation is called transcranial Direct Current Stimulation (tDCS). All eligible participants will engage in a behavioral intervention known to enhance control over food cravings and will be randomly assigned to receive either tDCS or sham stimulation to the prefrontal cortex of the brain.
The scientific goal of this study is to examine the effects of a ketogenic diet on hypoglycemia tolerance and brain function in people with type 1 diabetes mellitus (T1D) and to clarify the mechanistic role of ketones in this process. Glycemic management of T1D is typified by alternating periods of hyper- and hypo-glycemia. Because brain metabolism under usual conditions depends on glucose, acute hypoglycemia leads to immediate complications including impaired cognitive function and a counter-regulatory hormone response. Recurrent hypoglycemia is associated with functional and structural changes in the brain and contributes to the cognitive decline observed in individuals with diabetes. The state of nutritional ketosis (as it occurs during fasting or when following a ketogenic \[very low carbohydrate\] diet) may protect against these acute and chronic complications. As the body relies on fat metabolism, ketone bodies build up and provide an alternative fuel for the brain. Studies during hypoglycemia have shown better cognitive function and less hypoglycemia symptoms in the setting of nutritional ketosis or with ketone administration. This physiological benefit may have special relevance for people with T1D who experience hypoglycemia frequently. To date, no mechanistic studies have examined brain effects of nutritional ketosis in T1D; nor have any trials explored the potential relevance of this for diabetes care.
The brain plays an integral role in how and what people eat. However, the brain's contribution to overeating is not well understood during sensitive developmental periods such as adolescence, when excessive weight gain and obesity prevalence are a significant concern.The proposed study will use functional magnetic resonance imaging to examine how the brain's response to excess energy is related to overeating in adolescents with and without obesity.
This study is an RCT to evaluate the effectiveness of Brain Safe on reducing anticholinergic exposure. Over 42 months, the trial will enroll 700 community-dwelling older adults who were prescribed one or more strong anticholinergics. Participants will be randomized to use the Brain Safe app or an attention control medication list app for 12 months, with monthly usage reminders.
This is a prospective, observational clinical trial investigating the morphological and volumetric changes in the brain following cranial Radiation Therapy in pediatric patients with brain or skull base tumors.
The purpose of this research study is to collect data/measurements that are routinely collected in standard of care cerebral angiogram
This study will measure brain structure through its mechanical properties, assessed with magnetic resonance elastography, and determine whether it improves with aerobic exercise in older adults with low memory abilities. Additionally, this study will determine if memory abilities improve with exercise and if they are related to brain structure. Overall, this project has the potential to identify how brain health is impacted by exercise in older adults.
eBACH is a randomized intervention to determine the effects of aerobic exercise on brain structure and function, as well as to determine how exercise-induced training effects relate to cardiovascular function via related brain changes.
Current standard of care prior to determination of brain death in subjects with suspected anoxic brain injury is to exclude complicating medical conditions that may confound clinical assessment (such as severe electrolyte, acid base, endocrine or circulatory disturbance), achieve normothermia and normal systolic blood pressure over 100 mmHg (with or without vasopressor use), exclude the presence of neuromuscular blocking agents (with the presence of a train of 4 twitches with maximal ulnar nerve stimulation) as well as to exclude the presence of CNS depressant drug effects. At the present time the latter is done by history, drug screen and allowing enough time for paralytic and sedative drugs to be metabolized and cleared from the body. Clearance is calculated by using 5 times the drug's half-life assuming normal hepatic and renal functions. Half-life can also be prolonged in subjects who have been treated with induced hypothermia. Literature search revealed articles with general guidelines and approaches to brain death, but none addressed pharmacological reversal of sedative drugs
The objective of this study is to determine the central neural control of mobility in older adults by acquiring data with multiple modalities of neuroimaging (EEG, fNIRS, MRI) and associating these data with a comprehensive set of diverse mobility outcomes (clinic-based walking, complex walking and community mobility measures).
The purpose of this study is to understand the physiology of connectivity between cortical regions in the human brain in healthy participants and in patients with white matter lesions. Specifically, the investigators will examine the effects of paired associative stimulation (PAS) which consists in delivering brief (\< 1 ms) current pulses separated by a short millisecond-level time interval ("asynchrony") to two cortical areas. The used techniques are all non-invasive and considered safe in humans: transcranial magnetic stimulation (TMS), electroencephalography (EEG), magnetic resonance imaging (MRI), and functional MRI (fMRI). Based on prior literature in animals and human studies, it is hypothesized that PAS may increase or decrease effective connectivity between the stimulated areas depending on the asynchrony value. The main outcome measure is source-resolved EEG responses evoked by single-pulse TMS; this is a more direct measure of neuronal changes occurring at the targeted cortical area than motor evoked potentials (MEPs) or sensor-level EEG responses used in previous studies.
The overall objective of this study is to assess the safety and efficacy of the LUM Imaging System in imaging primary and metastatic cancer in the brain. This includes selecting a dose to determine the initial efficacy of LUM015 for the molecular imaging of low-grade gliomas, glioblastomas and cancer masses that have metastasized to the brain.
People living with HIV-1 have high rates of cigarette smoking, which may be related to nicotinic interaction with HIV-1 infection and brain function levels. The proposed project aims to understand these pathways using translational brain imaging and HIV-1 reactivation studies. The study proposes a targeted nicotine-brain investigation of the nicotinic effects in HIV-1 infection from cellular to brain circuitry levels.
Deep brain stimulation (DBS) of different brain nuclei is a treatment for multiple brain disorders. The subthalamic nucleus (STN) and globus pallidus have been used to treat advanced Parkinson's disease for a long time. The ventral intermediate nucleus of the thalamus is an effective target for treating essential tremor patients. STN and the internal segment of the globus pallidus are useful targets for treating dystonia. To achieve this optimal electrode localization, many centers perform electrophysiological mapping of the target nuclei using microelectrode recording (MER). This way they can achieve precise localization of the electrode. During the mapping procedure, microelectrodes are passed through the target nuclei, and the electrical neuronal activity is observed and recorded. The surgical team can identify the precise location of the target nuclei and its borders according to the typical activity of its neurons. This study will compare the activity of neurons in several DBS targets before, during and after sedation with propofol, remifentanil and dexmedetomidine. The goal is to understand the effects of anesthetics on the neuronal activity in these targets, allowing us to choose the most appropriate sedation protocol to use during implantation of DBS electrodes in deep brain structures (bearing in mind that each structure may have a different optimal protocol).
Given the accelerating growth of older adults worldwide and the decline in cognitive function with aging, therapeutics that remediate age-related cognitive decline are needed more than ever. The proposed research seeks to better understand and enhance the detection of exercise effects on hippocampal network function and learning and memory, which decline with aging and Alzheimer's. Success would lead to new ways to detect benefits of exercise on cognitive aging and would lead to mechanistic insight on how such plasticity is possible while also informing prevention strategies.
The purpose of this study is to evaluate if the use of a yeast-selenium supplement (AT-001) is safe in elderly subjects who do not have dementia, and further, to see if the supplement improves tests that are related to brain health.
To examine efficacy of combined unimanual and bimanual intensive therapy in children with unilateral brain injury. A key question in hemiplegia therapy is whether the affected hand should be trained alone or in tandem with the other hand. In constraint-induced movement therapy (CIMT), a participant's less-affected upper extremity is restricted with a sling, cast, or mitt, while the participant actively uses the affected arm and hand in skill-based therapeutic activities. Bimanual therapy, in contrast, engages both hands in therapeutic movement. Since constraint and bimanual therapy target different aspects of hand use, they could have synergistic effects on hand function when given in combination.
Adaptive reasoning and problem-solving are critical skills that allow for accurate decisions to be made based on varying levels of information. In many situations these decisions must be made and communicated under stressful, time-sensitive conditions. In such contexts, an ability to apply inductive and deductive reasoning to complex, ambiguous, and/or novel problems is critical. The objective of the INSIGHT project is to establish a comprehensive and rigorous brain training protocol to significantly improve adaptive reasoning and problem solving. We will examine a variety of interventions (cognitive training, physical fitness training, physiological stimulation, , and combinations thereof) to assess their ability to improve adaptive reasoning and problem solving abilities. Multimodal interventions are hypothesized to act synergistically to significantly enhance fluid intelligence (Gf) and underlying brain structure and function.
Processed carbohydrates cause rapid changes in blood sugar and have been associated with overeating and obesity. We have shown that test meals high in processed carbohydrate affect brain areas involved in addiction, craving and overeating. It is unknown whether the changes in blood sugar or the associated higher insulin levels mediate this brain activation and its likely adverse effects. Answering this question is important for patients with type 1 diabetes who have elevated risks of obesity and disordered eating: If blood sugar is the causal mechanism, optimal insulin coverage should be protective. If insulin is the causal mechanism, however, a diet high in processed carbohydrate could predispose to overeating and weight gain, as this diet requires higher insulin doses. To disentangle these factors, we will study brain activation and relevant blood markers in 15 men with diabetes. In 4 sessions, we will examine meals with differential carbohydrate properties while giving insulin infusions.