8,940 Clinical Trials for Various Conditions
The purpose of the study is to evaluate whether Lemborexant is more effective than placebo in shortening sleep onset latency in patients with delayed sleep phase syndrome (both type 1 and type 2). This will be tracked using sleep logs as well as actigraphy. In this 2-year study, the investigators will examine if Lemborexant administered 5-10 mg nightly taken at desired bedtime (at least 2 hours prior to self-reported sleep onset habitual time) can improve the symptoms of Delayed Sleep Phase Syndrome.
The objective of this study is to determine the effects of a 6-month, home-based personalized transcranial direct current stimulation (tDCS) intervention targeting the left dorsolateral prefrontal cortex on cognitive function, dual task standing and walking, and other metrics of mobility in older adults with motoric cognitive risk syndrome (MCR).
The purpose of this study is to establish a registry of individuals with confirmed or suspected Chopra-Amiel-Gordon Syndrome (CAGS) to learn more about the range of symptoms, changes in the structure of the brain seen on imaging, and learning difficulties that individuals with this disorder may experience. The investigators will obtain medical history, family history, MRI records, patient photographs, and genetic test results from individuals with confirmed or suspected CAGS. A subset of participants will also undergo a standardized neurobehavioral assessment. This data will be maintained on a secure research database. Sample collection will be offered to participants for the functional testing and the generation of iPSC cell lines, for neuronal reprogramming and phenotyping.
Background: - Eosinophils are white blood cells that help fight infections. High eosinophil levels can damage people s organs, causing hypereosinophilic syndrome (HES). Researchers want to study if the drug benralizumab can help people with HES. Objective: - To test if benralizumab can safely decrease eosinophils in people with HES. Eligibility: - Adults age 18-65 who have been on stable HES therapy for at least 1 month but still have symptoms and high eosinophil levels. Design: * Participants will be screened with medical history, physical exam, and urine and blood tests. They will take simple heart and lung tests. * Participants will also have a bone marrow biopsy. A numbing medicine is injected into the outer covering of the bone. Then a needle is inserted into the bone. A fast suction movement takes bone marrow cells. * Phase 1: Participants will randomly receive either the study drug or placebo as an injection. * They will have daily visits for the next 3 days, then 4 weekly visits, and then 4 biweekly visits. Each time, they will have medical history, physical exam, blood tests, and a check of side effects. * They will receive another dose of the study drug or placebo at 1 month and 2 months after the first injection. * Phase 2 repeats the Phase 1 schedule. All participants will receive the study drug. * At 1 visit, participants will also receive a vaccine. At 4 visits, they will repeat the heart and lung tests. They will also have one other bone marrow biopsy. * After week 24, participants will receive the study drug either 6 times over 6 months or twice over 6 months.
The study will test whether damage of the heart nerves appears in patients before they develop diabetes.
The goal of this study is to investigate the safety and effectiveness of a new implanted device designed to treat Urinary Urgency-Frequency Syndrome.
This study will evaluate the usefulness of FDG-PET scanning in distinguishing autoimmune lymphoproliferative syndrome (ALPS) from lymphoma. Lymphoma is cancer of the lymph system. ALPS is a condition involving persistent enlargement of the lymph glands, spleen, or liver, and a range of other problems relating to blood cell counts and abnormal immune activity, in which the immune system attacks healthy tissues. People with ALPS particularly those with an abnormal Fas gene also have an increased risk of developing lymphoma. The Fas gene codes for a protein that causes immune cells called lymphocytes to die when they are no longer needed. FDG-PET is a new nuclear imaging test that is very effective in detecting lymphoma. It is important to identify these cancers as quickly as possible, since some are very curable when caught early. Since ALPS and lymphoma share several common characteristics, a reliable, non-invasive method of distinguishing the two, such as FDG-PET might offer, is crucial. FDG-PET uses a radioactive sugar molecule to produce images that show the metabolic activity of tissues. Because cancer cells grow and divide more rapidly than normal cells, they metabolize more sugar for fuel. This increased activity identifies them as cancer in FDG-PET scanning. For this procedure, the subject is injected with the sugar molecule and lies in a doughnut-shaped machine (PET camera) for the imaging. Adults and children 10 years old or older with ALPS, with or without lymphoma, may be eligible for this study. Candidates will be screened with a physical examination, blood tests, and computed tomography (CT) scan. Participants will have an FDG-PET scan and a DEXA scan. The DEXA scan measures fat and non-fat tissue and is used help interpret the FDG-PET results. For this test, the subject lies on a table while a fast X-ray is taken from head to toe. Patients who develop signs or symptoms suggesting the development or recurrence of lymphoma (such as further enlargement of lymph glands, unexplained fever or weight loss, or abnormal scans) may undergo a tissue biopsy. For this procedure, a small piece of lymph or other tissue is surgically removed for examination under the microscope. In addition, patients who develop these symptoms may be asked to undergo additional FDG-PET scans up to two a year in patients without lymphoma, and as many as needed in patients with lymphoma to evaluate their response to treatment and guide future therapy.
Down syndrome is a chromosomal abnormality associated with significant deficits across multiple cognitive domains, including a disproportionate deficit in hippocampally-dependent memory. In other words, individuals with Down syndrome may have a particular difficulty remembering specific details from past events. One way this manifests itself is in overgeneral autobiographical memory, or a tendency to remember the general gist of an event or cluster of events, rather than a single, isolated event. This overgeneral memory makes it difficult for individuals with Down syndrome to access their past, can interfere with attempts to becoming more independent, and increases anxiety and depression. In the current VIRTUAL study, the investigators test whether a new digital memory prosthetic-HippoCamera-can enhance specific autobiographical memory in individuals with Down syndrome. In HippoCamera, users are asked to record and replay events from their daily lives. This replay is curated by a research-based algorithm in HippoCamera that optimizes consolidation of these events over time and has been shown to enhance memory specificity in other populations with memory impairments, particularly those that stem from hippocampal disfunction. It is, therefore, likely that similar enhancements in autobiographical memory specificity will be identified in individuals with Down syndrome, highlighting the benefits of this applications in this population.
This study is being done to assess mogamulizumab-associated rash in patients diagnosed with mycosis fungoides or sezary syndrome and treated with standard of care mogamulizumab. One of the most common side effects of mogamulizumab is a rash, currently named mogamulizumab-associated rash (MAR) which can look like MF or SS. However, mogamulizumab-associated rash (MAR) does not indicate failure of mogamulizumab, and may be a sign that the drug is working. If not properly evaluated, mogamulizumab-associated rash (MAR) could be misinterpreted as worsening of mycosis fungoides/sezary syndrome, which could lead doctors to recommend stopping mogamulizumab treatment early. The information learned by doing this research study may help tell the difference between mogamulizumab-associated rash (MAR) (sometimes also called "drug eruption") and worsening of the disease. It may also help to uncover information about the cause of mogamulizumab-associated rash (MAR).
The primary goal of this study is to investigate inflammation and white matter damage in corticobasal syndrome and determine whether these processes are related to each other. We will address our goal by using neuroimaging and blood plasma biomarkers, as well as molecular pathology.
The Shwachman-Diamond Syndrome Global Patient Survey and Collaboration Program (SDS-GPS) is an opportunity for patients and their families - from anywhere in the world - to share their experience living with SDS via a safe, secure, and convenient online platform, to * expand the understanding of SDS * improve the lives of people with SDS, and * accelerate the development of new therapies and cures for SDS. By joining, participants will receive early access to relevant information about new clinical trials and other research opportunities (such as clinical registries) based on their profile, accelerating research and increasing clinical trial impact and recruitment success. The platform, consent forms, and surveys are available in five languages: English, Spanish, French, German, and Italian. More languages to come.
This clinical trial investigates the effectiveness of Kinesio Tape (KT) in alleviating carpal tunnel-like symptoms and enhancing gaming performance among young adult PC gamers. The study aims to address two primary questions: Does Kinesio Tape reduce wrist pain in adult PC gamers experiencing carpal tunnel-like symptoms? Does Kinesio Tape improve gaming performance in this population? Researchers will compare the effects of KT applied to the wrist versus the scapular spine to determine if wrist application provides greater pain relief and performance benefits. Participants will undergo: Screening \& Consent (Up to 30 minutes via Zoom): Informed consent and a Phalen's test to assess carpal tunnel-like symptoms. Baseline (Day 0, 75 minutes): Completion of a demographic survey, 15 minutes of gaming on Kovaaks FPS Aim Trainer, KT application, 15 minutes of post-application gaming, and surveys (Boston Carpal Tunnel Syndrome Severity \[BCSS\] and KT feedback). Days 1 \& 2 (15 minutes each): KT removal and reapplication, followed by BCSS and KT feedback surveys. Day 3 (75 minutes): Repeat gaming tests, KT application, and completion of BCSS and KT feedback surveys, mirroring Day 0 procedures. Total Time Commitment: Approximately 210 minutes (3.5 hours) over four sessions.
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.
The goal of this clinical trial is to evaluate whether metabolic modulation with a combined nutraceutical product can improve symptoms and metabolic health in adults diagnosed with post-acute Covid-19 vaccination syndrome (PACVS), a condition characterized by persistent fatigue and exercise intolerance attributed to Covid-19 vaccination and confirmed by laboratory testing. The main questions it aims to answer are: Does the combined nutraceutical intervention improve quality of life (measured by the PAC-19QoL questionnaire) in PACVS patients? Does the intervention improve metabolic, inflammatory, and functional biomarkers (e.g., HbA1c, blood lactate, CRP, spike protein levels, heart rate variability, 6-minute walk distance)? Researchers will compare the intervention group (receiving the ViTAL SCAN nutraceutical) to a placebo group (receiving rice protein powder with vitamin C) to determine if the intervention leads to greater improvements in symptoms and biomarker profiles. Participants will: Take the assigned supplement daily for 3 months (ViTAL SCAN or placebo) Attend clinic visits for blood and urine sampling, physical performance tests (6-minute walk test), and heart rate monitoring Complete quality of life and health behavior questionnaires Undergo measurements of metabolic and inflammatory markers (HbA1c, lactate, CRP, spike protein) Record supplement intake This study is currently pending IRB approval and aims to enroll 100 adults with PACVS for a randomized, placebo-controlled trial.
The goal of this study is to learn more about the brain pathways and activity involved in creating Visual Snow Syndrome (VSS). The main questions it aims to answer are: * Does VSS arise from spontaneous activity in brain pathways? * Where in the brain does the activity contributing to VSS arise? * How does brain activity contribute to VSS? Participants will: 1. Undergo assessments and questionnaires to understand visual and mental symptoms, cognitive, and sensory function. 2. Make visual judgements based on images presented to them both inside and outside a magnetic resonance imaging (MRI) machine. 3. Undergo scanning of their brain while inside of an MRI machine.
Background: X-linked Hyper IgM (HIGM) syndrome is caused by a mutation in the CD40L gene. People with this disease have white blood cells that do not work properly. These people are at risk of severe infections and autoimmune diseases. Stem cell transplant can cure this disease. However, transplanting stem cells donated by other people can have serious complications. Another approach is gene therapy; this treatment repairs the mutation in a person's own stem cells by base editing. Researchers want to know if these base-edited stem cells can help people with CD40L-HIGM syndrome. Objective: To test base-edited stem cell transplant in 1 person with CD40L-HIGM syndrome. Eligibility: A male with CD40L-HIGM syndrome. Design: Participant will be screened. Tests will include medically indicated imaging scans, blood tests, and a sample of tissue and fluid (biopsy) may be taken from the bone marrow. Participant may undergo apheresis to collect stem cells. The collected stem cells will undergo base editing to repair the mutation. For treatment, participant will be admitted to the hospital for 5 weeks or more. For 2 weeks he will receive drugs to prepare his body for receiving the stem cells. After receiving the edited stem cells, he will remain in the hospital until his cell counts recover. Participant will have follow-up visits every few months in the first 2 years after treatment. The bone marrow biopsy will be repeated after 2 years. Long-term visits will continue annually for 15 years.
This single-center study aims to evaluate both immediate and long-term outcomes of stellate ganglion block (SGB) in a cohort of rigorously phenotyped patients with Postural Tachycardia Syndrome (POTS). By assessing the effects of SGB, this study seeks to determine its viability as an intervention for symptom control in POTS.
The goal of this clinical trial (via an expanded access Treatment Protocol) is to learn if QRX003 (an investigational drug) applied topically to the skin (including up to the entire body \[except the scalp\]) works to treat the genetic disease Netherton syndrome. It will also learn about the safety of QRX003. The main questions the trial aims to answer are: 1. Does QRX003 impact the clinical presentation of NS in adults and minors by improving the clinical symptoms (diseased skin area, itch, and discomfort; based on clinical scoring, subject self-assessment, and other criteria)? 2. What medical problems do participants have when taking QRX003? 3. What percent of subjects will require rescue therapy? Participants will: Take drug QRX003 twice daily (applied topically to all affected areas of the body excluding the scalp) for 3 months, visit the clinic once every 4-6 weeks for checkups and tests, and to keep a dosing diary that records the times they applied the drug.
The annual incidence of geriatric hip fractures in the United States is 325,000 and is projected to rise given the aging population.1 The mainstay of treatment is cemented hip hemiarthroplasty. Bone cement implantation syndrome (BCIS) is a serious perioperative complication unique to cemented arthroplasty characterized by hypoxia, hypotension, cardiac arrhythmias, and in severe cases, cardiac arrest. BCIS is associated with significantly higher rates of unplanned intubation, vasopressor use, prolonged hospitalization, and 30-day mortality. Given the rising incidence of hip fractures, the identification of readily modifiable risk factors for BCIS such as anesthetic regimen is crucial to reduce morbidity and mortality. However, a prospective study comparing the rate of BCIS development between general and neuraxial anesthesia is currently lacking. Additionally, no studies have examined how the anesthetic regimen affects histamine and complement levels. Therefore, this pilot study aims to investigate the effect of anesthetic regimen on BCIS development as well as on histamine and complement levels in patients undergoing cemented hemiarthroplasty for hip fracture. The investigators hypothesize that neuraxial anesthesia will be associated with lower rates of BCIS as well as lower histamine and complement levels compared to general anesthesia. The primary objective of this pilot study is to compare the effect of general and neuraxial anesthesia on the incidence and severity of BCIS in patients undergoing cemented hemiarthroplasty for hip fracture. Secondary objectives include examining postoperative outcomes associated with BCIS, such as cardiac arrhythmias, unplanned intubation, hypoxia necessitating supplemental oxygen, altered mental status, and in-hospital mortality. Additional objectives include comparing histamine and complement levels between anesthetic regimens as well as between patients with and without BCIS
The long-term study goal is to experimentally evaluate the components (and likely active ingredients) of early language interventions for young children with Down syndrome (DS). The overall objective is to determine how single-word and telegraphic simplification affects real-time language processing and word learning in young children with DS (relative to full, grammatical utterances). The proposed project will investigate three specific aims: 1) Determine how single-word and telegraphic simplification affects language processing. 2) Determine how single-word and telegraphic simplification affects word learning. 3) Evaluate child characteristics that may moderate the effects of linguistic simplification on language processing and word learning. Aim 1 will test the hypothesis that children with DS will process grammatical utterances faster and more accurately than telegraphic or single-word utterances. Aim 2 will test the hypothesis that overall, children will demonstrate better word learning in the grammatical compared to the single-word and telegraphic conditions. Aim 3 will test the hypothesis that receptive language and nonverbal cognitive abilities will be significant moderators, such that children with stronger linguistic and cognitive skills will show the greatest benefit from grammatical input but children with lower linguistic and cognitive scores will perform similarly across conditions.
The goal of this observational natural history study is to better characterize development, transition to adulthood, health and behavior of individuals diagnosed with Williams syndrome (WS) or carrying other variants of 7q11.23 chromosome and to build a DNA and tissue biobank with samples donated by affected individuals. The study has multiple arms focused on different aspects of WS. Participants with genetic diagnosis of WS or other variants of 7q11.23 and their family members are eligible to participate. Study participants may participate in one or multiple arms of the study: 1. Natural History Genotype-Phenotype Study to test the hypothesis that health, behavior, and developmental variability observed in WS is determined by genetic factors and to characterize those genetic changes. Participants of all ages are eligible to participate. Either a blood or saliva sample is required for participation. 2. Biobank: the research team is building a biobank enabling the development of new laboratory tools and models to study WS and test new treatment approaches. A blood sample is required for participation. Participants of all ages are eligible to participate. 3. Development arm of the study aims to delineate the development of language, cognition, personality, literacy and mathematics skills, and adaptive behavior from very early childhood through adulthood in individuals who have WS or Dup7. The purpose of this study also includes determining the predictors of specific aspects of development (e.g., word reading ability, language ability, spatial ability) for individuals with WS or Dup7. Affected individuals of all ages are eligible to participate. 4. Transition to Adulthood study aims to understand how young adults with WS make a successful transition out of high school into adulthood and to help them in this journey by providing a comprehensive psychosocial transition coupled with a medical transition plan. Individuals ages 14-25 years old are eligible to participate. Study requires three in person visits.
This clinical trial tests whether various web-based tools can help improve communication about hereditary cancer risk in families and decrease barriers to genetic testing for relatives of patients with hereditary cancer syndromes. Between 5% and 10% of all cancers are caused by genetic changes that are hereditary, which means that they run in families. Some kinds of cancer or certain cancers diagnosed in biological relatives may mean patients are more likely to have a genetic change. Once a genetic change is identified in a family, other biological relatives can choose to undergo testing themselves to better understand their cancer risk. The uptake of genetic testing in other biological relatives once a genetic condition is identified is about 20% to 30%. The Cascade Genetic Testing Platform is a virtual tool that seeks to overcome barriers related to logistics of family communication and improve dissemination of genetic testing information which is clinically actionable for individuals at highest risk for cancer. Using the Cascade Genetic Testing Platform may improve ways to share information about hereditary risk with biological relatives.
The goal of this interventional clinical trial is to evaluate the safety and tolerability of leflunomide in combination with decitabine as treatment for patients with relapsed or refractory myelodysplastic syndromes (R/R MDS). The main question this study aims to answer are to evaluate and estimate the maximum tolerated doses and/or biologically active doses of the combination of leflunomide-decitabine in participants. Decitabine will be administered at a dose of 20 mg/m2 by continuous intravenous infusion over one hour repeated daily for 5 days with repeating cycle every 4 weeks. Leflunomide is administered orally at 10 to 20 mg once daily (without a loading dose) for 14 to 21 days, as part of a 28-day treatment cycle in adult subjects with R/R MDS. After 12 cycles (study duration) responding patients can continue progression with the assigned doses.
The goal of this clinical trial is to address care gaps for participants at high risk of breast and ovarian cancer (HBOC), or Lynch syndrome (LS) because of testing positive for specific genetic variants. A patient-centered clinical decision support (PC-CDS) tool will help identify participants with genetic variations and display recommendations for referrals and testing to the clinician and participant at a primary care visit. The main question the study aims to answer is: - Does clinical decision support for participants with hereditary cancer syndromes improve the use of evidence-based cancer prevention care. Participants being seen in the PC-CDS group are compared to participants being seen in usual care (UC) to see if they are up to date on guideline-based cancer prevention care and to see if participants in the PC-CDS group report more shared decision making and higher rates of self-management of their genetic cancer risks. Participants will be asked to answer survey questions.
The purpose of this study is to evaluate the efficacy and safety of ION582 in children and adults with Angelman syndrome caused by a deletion or mutation of the UBE3A gene.
To find out if adding medication can help treat or prevent lymphedema and/or fibrosis related to radiation therapy, in survivors of head and neck cancer. Researchers will compare these drugs to find the most effective therapy for preventing or limiting these side effects.
This clinical trial will use the amyloid-binding radiotracer, 124I-evuzamitide, to potentially detect amyloid, in the heart and elsewhere, in patients who have a history of lumbar spinal stenosis and/or carpal tunnel syndrome.
Patients that undergo decompressive craniectomy are at risk of delayed changes in brain function known as "Sunken Flap Syndrome" or "Syndrome of the Trephined." The goal of this clinical trial is to see if placing a prosthetic over patients' skull defects can prevent "Sunken Flap Syndrome." The main questions are: 1. Can placing a prosthetic device over patients' skull defects prevent Sunken Flap Syndrome? 2. Can placing a prosthetic device over patients' skull defects decrease healthcare costs? 3. Can placing a prosthetic device over patients' skull defects improve recovery and return of brain function after decompressive craniectomy? Patients that experience traumatic brain injuries, brain bleeds, and large strokes can build up high levels of pressure in the skull. When this pressure can't be controlled with medications, a life-saving surgery called a decompressive hemicraniectomy (DC) is often performed. In this surgery, a large portion of the patient's skull is removed to decrease pressure on the brain and decrease permanent damage. After this surgery, many patients experience sinking of the brain in the skull as the pressure inside the head improves. The skull normally protects the brain from the outside environment. When large parts of the skull are removed, the brain is not able to regulate itself normally. This can lead to a number of problems, such as headaches, weakness, seizures, and even coma and permanent brain damage. This is referred to as "Sunken Flap Syndrome" (SFS) or "Syndrome of the Trephined" (SoT). After 3-6 months, patients can have the missing skull surgically repaired, which improves and sometimes fixes SFS, but the damage is sometimes too severe to be reversed. There are reports of patients with SFS treated with custom-made prosthetics that cover the missing piece of skull. In this study, the researchers want to see if wearing a custom-made prosthetic can prevent patients from experiencing SFS. Patients will also receive additional non-invasive measurement to see if the prosthetic can improve brain function and recovery. Finally, the researchers want to know if the prosthetic is cost-effective by decreasing the frequency that patients see doctors or receive care to treat SFS. Patients or the patient's medical decision makers will be asked if the patient wants to participate in the study after DC. If the patient or decision maker agrees to participate, the patient will be also asked if the patient wants to wear the prosthetic. The prosthetic is made of a common material used in other facial prosthetics. Patients that agree to wear the prosthetic will have a custom plate made for the participant. All patients will receive the same post-operative care and appointments whether or not the prosthetic is worn. The participant will go to the normally scheduled post-operative doctor's appointments at 2 and 4 weeks after initial DC surgery. Patient's that agree to wear the prosthetic will receive it at the 4-week post-DC appointment. The participant will then be asked to wear it as much as possible, but to let the researchers know if the participant experiences any pain, itching, discomfort or other problems. All patients will also be seen by the patient's physician before and after and after skull repair. At all appointments, patients will receive non-invasive testing of brain function. Recovery and rate of SFS will be compared between patients that do and do not wear the prosthetic. Participants will: * Go to the normally scheduled 2 and 4 week post-DC appointments * Go to the normally scheduled pre- and post-skull repair appointments * Receive additional non-invasive brain health testing at each appointment Participants that agree to wear a prosthetic will: * Receive the custom prosthetic at the 4-week post-DC appointment * Wear the prosthetic as much as possible, including at night * Take a brief survey about the prosthetic at the post-skull repair appointment
This is a phase 2 randomized placebo-controlled crossover trial to determine the safety and efficacy of atomoxetine for treating obesity caused by loss-of-function variants in the melanocortin-4 receptor (MC4R), the most common cause of genetic obesity disorders. Atomoxetine was selected for this pilot trial because it has been shown to increase brain-derived neurotrophic factor (BDNF) within the central nervous system and in peripheral circulation. Targeting BDNF is a specific strategy for treating MC4R abnormalities because BDNF functions as a downstream mediator of MC4R signaling.
The purpose of this clinical study is to evaluate the accuracy of the fecal immunochemical test (FIT) in comparison to colonoscopy in patients with Lynch Syndrome (LS) who are undergoing colonoscopy surveillance.