37,701 Clinical Trials for Various Conditions
The trial of Methadone Patient Access to Collaborative Treatment (MPACT) will establish the impact of the intervention on patient outcomes of methadone treatment retention and in treatment overdose. It will also establish the impact of patient and staff trauma symptoms and clinic practice change on MPACT intervention implementation.
Examine the preliminary effect of the MPACT intervention on methadone treatment retention, in treatment overdose and patient trauma symptoms. The study will also explore the relationship between staff trauma symptoms and MPACT implementation.
This study is a retrospective chart abstraction for subjects who were enrolled in REN-004. As a retrospective study, all data will be abstracted from the medical records.
Patients with HAE Type I or II who enroll in the study are asked to complete a patient diary when they experience an HAE attack. If icatibant is taken as the first treatment for the attack, the patient diary will ask questions over a 48 hour period after dosing to track the characteristics and severity of the attack along with the patient's level of anxiety.
The purpose of this study is to determine if it is feasible and acceptable to recruit for and deliver the AI Assisted Personalized Legacy Program intervention to patients with serious illness.
This observational research is comparative in design, that is assessing the change in qMRI measures in degenerative changes of the TMJ in patients diagnosed with DJD. These patients will be imaged multiple times over the course of 18 months, using clinical 3T MRI scanners located at the Center for Magnetic Resonance Research (CMRR), and their findings will be compared to controls; individuals who are not diagnosed with DJD. No investigational agents or MRI contrast agents will be used.
The goal of this clinical trial is to learn about exercise and physical activity in individuals who are undergoing cancer treatment. The clinical trial is embedded in a pilot implementation feasibility study. The main implementation questions it aims to answer are to understand the implementation feasibility, acceptability and appropriateness of remote monitoring from providers and participants. The main clinical trial outcomes are to explore the effectiveness of remote therapeutic monitoring to achieve individual goal attainment related to exercise defined as number of daily steps, weekly exercise minutes, strength sessions or decreased physical activity variability. During the course of the study: Participants will use activity trackers and a mobile phone application to monitor their exercise participation over 3 months.
The aim of this study is to determine whether a modified fasting protocol can reduce the potential risk of aspiration for patients currently prescribed GLP1-RAs.
The goal of this observational study is to evaluate the feasibility and acceptability of a 12-week intervention utilizing a Fitbit and artificial intelligence (AI)-delivered diabetes self-management education and support (DSMES) with tailored text messages. The main question it aims to answer is: Does providing a wearable fitness and activity tracker plus AI-tailored and DSMES improve clinical outcomes for patients with type 2 diabetes? Participants will complete a baseline visit, wear a Fitbit and answer text messages for 12-weeks, and complete by a final visit.
The purpose of this study is to evaluate whether treating glioblastoma patients with sitagliptin can improve immune response against the tumor by targeting specific immune cells called myeloid-derived suppressor cells (MDSCs) that suppress your body's natural immune response against cancer. Sitagliptin is an investigational drug for this condition that works by inhibiting an enzyme called dipeptidyl peptidase 4 (DPP-4), which MDSCs rely on to enter the brain and function. While sitagliptin is FDA-approved for diabetes treatment, its use in glioblastoma is investigational (experimental).
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 DONE SYMPLE Trial is a global clinical study testing whether a procedure called endovascular therapy, which removes blood clots from blocked brain arteries, can safely benefit more stroke patients when used up to 72 hours after symptoms begin. Endovacular Therapy is already proven to improve recovery in patients treated within 6 hours, but only when advanced imaging like Computed Tomography (CT) perfusion or Magnetic Resonance Imaging (MRI) is available to guide treatment. Unfortunately, many hospitals, specially in underserved areas, do not have access to this type of imaging. This trial will investigate whether a basic brain scan called non-contrast CT, which is widely available in hospitals around the world, can be used instead. Special software will automatically analyze the CT scan to help doctors decide if a patient has enough brain tissue left to save with Endovascular Therapy. If this simpler approach works, it could expand access to lifesaving stroke care for more people globally. The study will enroll 500 adult stroke patients, ages 18 to 80, with a large vessel blockage in the brain's anterior circulation, moderate to severe stroke symptoms, and who are between 6 and 72 hours from when they were last known to be well. All participants will undergo CT imaging analyzed by the automated software. If the scan shows a small core of already damaged brain tissue and a larger area of threatened but still viable brain, the patient will qualify. Participants will be randomly assigned to receive either standard medical therapy alone or medical therapy plus Endovasculat Therapy which involves inserting a catheter through a blood vessel to reach the brain and using a device to remove the clot. This procedure is performed by trained stroke or neurointerventional specialists. The study is "open-label," meaning patients and doctors know which treatment is given, but the assessment of patient recovery will be done by independent reviewers who do not know the group assignments. The primary goal is to determine if patients who receive Endovascular Therapy have better recovery at 90 days, measured by a scale called the modified Rankin Scale, which assesses how much disability a patient has after a stroke. The trial will also look at safety (especially brain bleeding after treatment), size and growth of brain injury on follow-up scans, recovery of strength and language, and overall quality of life and survival. Imaging will be reviewed centrally by a specialized team, and results will be analyzed to see how well Endovascular Therapy performs using this new patient selection method. The DONE SYMPLE Trial is sponsored by the University of Iowa in collaboration with the University of Texas Health Science Center in Houston. It will take place at up to 20 hospitals worldwide. All patients will be followed closely with exams and imaging at specific time points up to 90 days after treatment. If successful, this trial could change stroke care around the world by proving that Endovascular Therapy can be used safely and effectively even without advanced imaging, using tools available in most hospitals. This could help more stroke patients, especially in rural or resource-limited areas, access treatments that may improve their chances of recovery and reduce long-term disability.
The purpose of this phase 3, randomized, placebo controlled, event-driven study is to assess the effect of AZD0780, an oral PCSK9 inhibitor, compared with placebo in reducing the risk of MACE-PLUS in patients with established ASCVD or at high risk for a first ASCVD event. The effect of AZD0780 vs placebo on the risk of MACE-PLUS will be evaluated from randomisation until the primary analysis censoring date (PACD). The Study Closure Visit will be scheduled to occur after the PACD and will be the final visit for each participant in the study.
This is a study to evaluate the efficacy and safety of AZD0780 in adults with HeFH and elevated LDL-C, either with clinical ASCVD and LDL-C levels of 55 mg/dL or higher or without clinical ASCVD and LDL-C levels of 70 mg/dL or higher. AZD0780 is a small molecule that reduces the amount of LDL-C in the blood. Placebo will be used for comparison, and neither the participants nor the Investigators will know who is receiving the AZD0780 medication and who is receiving the placebo until the end of study. The total length of the study for an individual participant will be up to approximately 56 weeks, including a screening period of up to 14 days, treatment with AZD0780 or placebo for 52 weeks, and a safety follow-up period of 10 days.
This is a study to evaluate the efficacy and safety of AZD0780 in adults with clinical ASCVD or who are at risk for a first ASCVD event and who have elevated LDL-C. AZD0780 is a small molecule that reduces the amount of LDL-C in the blood. Placebo will be used for comparison, and neither the participants nor the Investigators will know who is receiving the AZD0780 medication and who is receiving the placebo until the end of study. The total length of the study for an individual participant will be up to approximately 56 weeks, including a screening period of up to 14 days, treatment with AZD0780 or placebo for 52 weeks, and a safety follow-up period of 10 days.
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 phase II trial studies the performance, including ultrasound visibility, of an optimized ultrasound twinkling marker in imaging lymph nodes in patients with clinically node-positive breast cancer. In patients with biopsy-proven breast cancer, biopsy markers are used to identify the sites of cancer involvement in both the breasts and lymph nodes. These biopsy markers are critical for guiding surgical management many months after the marker is placed. For breast radiologists and breast surgeons, there is a need for simple, consistent visibility of biopsy markers by ultrasound, particularly several months after marker placement. Ultrasound is the imaging method of choice, particularly for lymph nodes in the armpit (axilla). Ultrasound is non-ionizing and is more comfortable for patients compared to mammography. However, ultrasound visibility of these markers is challenging and inconsistent, with ultrasound failing to detect the marker approximately 25% of the time. The Mayo-designed investigational biopsy marker takes advantage of an ultrasound phenomenon called twinkling artifact. The Mayo-designed optimized ultrasound twinkling marker may work better than standard biopsy clip marker in imaging lymph nodes in patients with clinically node-positive breast cancer.
This clinical trial is testing a new approach to help improve hair thinning using a combination of cosmetic treatments. The purpose of the study is to learn whether applying exosomes to the scalp, along with microneedling and a precision cooling device called TargetCool™. This study aims to determine whether this combination approach offers synergistic benefits for individuals with hair thinning. Exosomes are tiny particles that come from stem cells and contain growth factors and other nutrients. They are being studied for their potential to help regenerate skin and hair. TargetCool™ is an FDA-cleared device that uses precision cooling to reduce inflammation and improve comfort. Microneedling is a common, minimally invasive procedure that uses small needles to stimulate the skin and help absorb topical products more effectively. The study will include healthy men (ages 18 to 70) and women (ages approximately 45 to 70) who are not of childbearing potential. A total of 9 to 15 participants will be randomly placed into one of three groups: Group 1: Exosomes with TargetCool™ Group 2: Microneedling followed by exosomes and TargetCool™ Group 3: Microneedling followed by exosomes only Participants will receive four treatments over 9 weeks. Each visit may include microneedling, TargetCool™ treatment, and exosome application depending on group assignment. A small tattoo will be placed on the scalp to help capture consistent photographs, and a special imaging system (Canfield HairMetrix®) will be used to measure hair changes. Participants will return for follow-up visits at 3 and 6 months after the final treatment. The results will help determine whether this combination of cosmetic treatments is safe and beneficial for people experiencing hair thinning.
Measuring the impact of a guideline-based nutrition digital tool in heart failure patients
A phase 1a/1b, multicenter, open-label, dose escalation/expansion, multiple-dose study to evaluate the safety and activity of DR-0202 in patients with locally advanced or metastatic, relapsed or refractory carcinomas
The purpose of this research is to evaluate a new investigational device for the diagnosis of stroke, the EMVision emu™ Brain Scanner. Stroke is the result of a blood clot stopping the normal flow of blood in the brain (ischaemic stroke) or a breakage in a blood vessel causing bleeding in the brain (haemorrhagic stroke). Stroke is a medical emergency and must be quickly diagnosed and treated. Computed tomography (CT) or magnetic resonance imaging (MRI) scans are commonly used to diagnose stroke, but they are not always readily available. EMVision has developed the emu™ Brain Scanner, a helmet-like device which scans the head using ultra-high frequency radio signals. It is portable and easy to use, making it more accessible than CT or MRI machines. Easier access to the EMVision emu™ Brain Scanner may reduce the time taken to diagnose stroke, leading to faster treatment and better health outcomes. It is the purpose of this study in the first instance to determine the accuracy of the EMVision emu™ Brain Scanner in the detection of haemorrhagic stroke.
The purpose of this study is to determine patient satisfaction with orthopedic preoperative encounter based on offer to record the encounter on patient personal smartphone.
The goal of this clinical trial is to learn if an educational tool helps postpartum patients after having high blood pressure during their pregnancy. The main question it aims to answer is: Does receiving our educational tool improve patient activation in the postpartum period? Researchers will compare a group of postpartum patients who get the tool 0-2 weeks after delivery with patients who do not get the tool to see if there is a difference in their activation scores 4-12 weeks later. Participants will: Complete a survey when we first speak with them Complete a similar follow-up survey 4-12 weeks later
This phase II trial compares the effect of adding olanzapine to standard of care symptom management for nausea to standard of care alone in managing an abnormal loss of the appetite for food (anorexia) in patients treated with chemoradiation therapy (CRT) for head and neck cancer. Patients undergoing CRT may experience treatment-related side effects, including pain, nausea, and a discomfort in the ability to speak, swallow and eat. These side effects have been shown to increase weight loss, opiate use and hospitalization. Olanzapine is a drug used to treat certain mental disorders. It is also being studied in the treatment of nausea and vomiting caused by some cancer treatments. It is a type of anti-psychotic and a type of monoamine antagonist. Adding olanzapine to standard of care symptom management to limit nausea may be more effective than standard of care alone in managing anorexia in head and neck cancer patients during CRT.
For adults \>65 years and their providers, the investigators will test the usability and design of a tool to replace standard uniform reporting of lab results to patients and their providers with a new personalized EHR lab result communication tool that: 1) extracts patient-level data from the EHR; 2) calculates individual risk; and 3) for patients with very low risk, communicates the individualized risk information. The investigators will employ a range of user experience research methods to understand how patient and provider users interact with the new lab result communication tool and to assess their comprehension of the lab results.
The primary objective of this study is to learn whether a morning dose of extended-release torsemide enhances renal sodium excretion after lunch (4-8 hours after dosing) compared to immediate-release torsemide. This is a randomized, double-blind, crossover study in patients with heart failure who are on a stable dose of a loop diuretic. During the study period, participants' current loop diuretics will be replaced with an equivalent dose of either immediate-release or extended-release torsemide. Following a one-week stabilization period on the assigned torsemide formulation, patients will report to the clinical site for an assessment visit. On the study day, patients will take a single dose of the same torsemide formulation they have been on for the past week, administered after breakfast. Urine samples be collected are: * 0-4 hours post-dosing (pre-lunch period) * 4-8 hours post-dosing (post-lunch period) * 8-24 hours post-dosing (24 hours period) The primary endpoint will be urinary sodium excretion (4-8 hours after dosing). This will be compared between the extended-release arm and the immediate-release arm to assess the efficacy of prolonged diuretic action. In addition, urinary potassium and creatinine excretion and creatinine clearance will be measured in all urine samples as the safety endpoints.
The researchers are studying whether an intervention that involves video-based educational content and a health coach is acceptable, feasible, and effective for people with Heart Failure with Preserved Ejection Fraction (HFpEF).
This pilot study evaluates the biomechanical properties of the cornea in glaucoma patients using Brillouin microscopy, a non-contact imaging technique. The study aims to compare corneal stiffness between patients with normal-tension glaucoma, high-tension glaucoma, and healthy controls, and to assess changes in corneal biomechanics following intraocular pressure (IOP)-lowering treatment. The goal is to determine whether Brillouin-derived biomechanical measurements can serve as biomarkers for glaucoma risk and progression.
The main goal of this study was to investigate the effectiveness and safety of eltrombopag (ETB) when compared to other treatments in Japanese aplastic anemia (AA) patients using data from the Medical Data Vision (MDV) hospital-based database.
Background: Oncocytic (Hurthle cell) thyroid cancer (HTC) is a rare disease with few treatment options. Researchers are developing a radioactive drug that targets a protein that appears in high numbers on HTC cancer cells. Objective: To test a radioactive drug (177LuDOTA-EB-TATE) in people with HTC. Eligibility: People aged 18 years and older with HTC. The HTC must have failed to respond to conventional radioactive treatment; it must also have spread to other parts of the body. Design: Participants will be screened. They will have a physical exam with blood tests. They will have imaging scans and a test of their heart function. 177LuDOTA-EB-TATE is infused into a vein. Participants will receive 4 infusions spaced 8 to 12 weeks apart. They will stay in the hospital for 4 to 10 days after each infusion. During and after each infusion, participants will remain in a lead-lined room until their radiation levels go down; this usually takes about 24 hours. Participants will have 4 to 6 follow-up visits in the weeks after each infusion. Procedures will vary at each visit, but may include more imaging scans; blood and urine tests; and tests of heart function. Participants will have 2 single-photon emission computerized tomography (SPECT) scans. SPECT scans show where the study drug is sticking to tumors or maybe other parts of their body. They will lie on a table while a machine rotates around them. Participants will fill in questionnaires about how their thyroid condition affects their life. Participants will have follow-ups visits for 5 years after their last study treatment.