891 Clinical Trials for Various Conditions
The anatomical changes of the upper airway in a standing vs pseudo-supine position using Carestream Orthodontic Imaging (Volumetric) and Carestream Orthodontic Imaging module (AP measurements) of the patient's airway respectively, have been taken and the obtained results compared. In order to simulate the supine position, patients are placed in a supine position (180 degrees) in a dental exam chair, and asked to relax their lower jaw, allowing it to drop back, simulating their jaw falling back while sleeping. That bite is then captured with a Correct Plus™ Impression Material Superfast. Once the bite material hardens, it locks the bite in place. The patient then stands upright, and CBCT is taken standing while the jaw placement is still pseudo sleep-supine, supported by the bite material.
This is a single-center, pilot study being conducted to evaluate the safety and performance of the investigational device (MUST) in detecting malignant lesions in breast tissue.
This is an open-label study investigating the relationship between SEP-228432 and SEP-228431 (the active metabolite of SEP-228432) plasma concentrations, SERT occupancy, and DAT occupancy, both measured by SPECT imaging.
Optical coherence tomography will be a feasible adjunct to flexible bronchoscopy, and provide images with good sensitivity and specificity to determine the presence of endobronchial malignancies.
The purpose of clinical research is to look at the nature of disease and try to develop improved methods to diagnose and treat disease.The goal of this study is to evaluate the use of computed tomography (CT) scan of the heart in the diagnosis of disease in vein grafts after bypass surgery.
Coronary CT angiography (CCTA) offers great promise as a risk stratification tool in patients with suspected CAD. It has been demonstrated in a multitude of accuracy studies to have a negative predictive value averaging over 95%. This leads to the hypothesis that a negative CCTA may preclude the need for invasive testing. The purpose of this randomized controlled study is to prospectively evaluate the role of CCTA on the management of patients with inconclusive or indeterminate stress test results.CCTA is able to provide not only information on presence and extent of coronary artery calcification, but detailed coronary anatomy as well. SPECIFIC AIM # 1: To evaluate the diagnostic and prognostic performance of CCTA in patients with equivocal / intermediate stress test results as compared to conventional invasive coronary angiography. SPECIFIC AIM # 2: To evaluate the utility of CCTA in prediction of major adverse cardiac events (MACE) compared to invasive coronary angiography at 30 days, 1 year, 3 years and 5 years.
This study is designed to evaluate the effectiveness and measurable cost impact of stress cardiac MRI for non-invasive evaluation of intermediate lesions discovered on CCTA in low-to-intermediate risk patients admitted to the ED with suspected ACS. Our primary objective is to determine if the strategy of CTA + stress CMR will reduce the length of time in the ED required to establish a definitive diagnosis, compared to CTA + stress MPI.
The purpose of this cardiovascular imaging research is to look at ways to improve the way we can look at the pictures of the heart. Patients undergo CT scans of the heart for a variety of reasons, including symptoms and/or tests suggestive of coronary artery disease (chest pain, shortness of breath, abnormal stress test, follow up exam of known/existing coronary disease, abnormal calcium score, etc.) This study involves finding ways to optimize quality of the scan in persons of size. This is because in patients with a BMI (body mass index) of greater than 40, it is usually difficult to "see" all the arteries around the heart satisfactorily. Body mass index is a number that we can get by putting your height and weight in a formula. The purpose of this study is to use a new computer software program to help us interpret your heart study.
This study will determine how breathing motions may affect positron emission tomography (PET) scans. It has been discovered that the quality of PET scans varies according to which part of the breathing cycle patients hold their breath. NIH Clinical Center patients 12 years of age and older who are scheduled to have PET and computed tomography (CT) scans as part of their standard medical care may be eligible for this study. Participants have their scheduled PET or CT scan as they normally would and are asked to hold their breath after breathing out, as is usual. In addition, for this study, patients are also asked hold their breath after breathing in and again at a point between breathing in and out. Each breath-hold is for around 15 seconds. The scans for each of the three different breath-holds are examined for differences. Some patients may also be asked to breathe through a tube called a pneumotachometer, or spirometer, to determine their normal breathing pattern. This involves breathing through a mouthpiece similar to a snorkel mouthpiece and takes about 2 minutes.
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.
This clinical trial studies the side effects of computed tomography (CT)-guided stereotactic body radiation therapy (SBRT) with intrafraction motion monitoring and to see how well it works in treating patients with prostate cancer that has not spread to other parts of the body (localized). In CT-guided SBRT, x-ray-based imaging and cone-beam CTs are used to define and localize the area to be treated with SBRT. SBRT is a type of external radiation therapy that uses special equipment to position a patient and precisely deliver radiation to tumors in the body (except the brain). The total dose of radiation is divided into smaller doses given over several days. This type of radiation therapy helps spare normal tissue. A recent randomized trial showed that while SBRT is associated with less urinary incontinence and erectile dysfunction than complete surgical removal of the prostate, there are more urinary irritative side effects and more bowel side effects than with surgery. One source of uncertainty in SBRT that may contribute to genitourinary (GU) and gastrointestinal (GI) side effects is the necessity of treating a "margin" of volume around the prostate to account for its movement during SBRT. Intrafraction motion monitoring is any technique or system designed to track the movement of the body and target during fractions of external beam radiation to keep the beam on target. This allows for the patient to be repositioned, if needed, to ensure delivery of the SBRT to only the planned treatment area. CT-guided SBRT with intrafraction motion monitoring may lower GU and GI side effects by allowing tighter margins, as has been demonstrated with magnetic resonance imaging (MRI)-guided SBRT.
This study is an exploratory proof of mechanism (POM) study using PET/functional magnetic resonance imaging (fMRI) in a 2-period, 2-sequence, crossover design. The aim of the study is to confirm the potential of Ralmitaront to decrease dopamine synthesis capacity (DSC) - as measured by levels of F-DOPA - in the striatum of participants with schizophrenia.
Optical Coherence Tomography Angiography (OCTA) is a non-invasive tool that images the neurovascular structures of the eye by using near-infrared light. Previous literature has demonstrated the potential of OCTA as a screening tool in stroke, but its utility in other neurological illness such as intracranial hemorrhage is unclear. Hence, this pilot study will gather preliminary data to support future grant applications to investigate this area more fully by recruiting patients with neurological illness and healthy controls and comparing their OCTA imaging parameters.
The goal of this clinical trial is to perform a PEEP titration protocol and use EIT to identify the optimal PEEP at which lung overdistention and collapse are most effectively balanced. The primary and secondary aims of the study are as follows: Identify the difference between the optimal PEEP recommended by EIT metrics and the current guideline recommended approach to identifying optimal PEEP in PARDS. There will be a statistically significant difference in the recommended optimal PEEP identified using the EIT PEEP titration tool and that of the PEEP/FiO2 grid recommendations. Determine the difference in physiologic metrics between EIT optimal PEEP and the PEEP/FiO2 recommended PEEP. Participants will undergoing EIT monitoring while being subjected to PEEP titration protocol.
The goal of this observational study is to learn about the long-term results of glaucoma stent surgery in men and women 18 or older who have had cataract and microstent surgery in the past 2 years at the Moran Eye Center. The main questions the study aims to answer are: 1. How often are microstents mispositioned? 2. What effect does microstent positioning have on intraocular pressure after surgery? Participants will have a one-time clinic visit for an eye exam and Optical Coherence Tomography (OCT) . From the eye exam and OCT, Researchers will assess and categorize the position of the microstents and assess the Schlemm's canal dilation. Researchers will review the participants' medical records to acquire 2-year data for the following: 1. Surgeon type and level of experience (resident, fellow, attending ophthalmologist) 2. Proportions of proper gonioscopic placement intraoperatively for each surgeon group 3. Effectiveness of surgery, based on change in intraocular pressure (IOP) from baseline medicated IOP, number of IOP-lowering medications the patient was able to discontinue, and rate of need for additional glaucoma surgery.
This phase I trial studies how well zirconium (Zr)-89 crefmirlimab berdoxam and immuno-positron emission tomography (PET) identifies areas of immune cell activity in patients with brain tumors that can be removed by surgery (resectable). One important predictor of the immune response is the presence and change in CD8 positive (+) tumor infiltrating lymphocytes (TIL) cells. Identifying the presence and changes in CD8+ cells can be challenging, particularly for participants with central nervous system (CNS) tumors, and usually requires invasive procedures such as repeat tissue biopsies, which may not accurately represent the immune status of the entire tumor. Zr-89 crefmirlimab berdoxam is known as a radioimmunoconjugate which consists of a radiolabeled anti-CD8+ minibody whose uptake can be imaged with PET. Upon administration, Zr 89 crefmirlimab berdoxam specifically targets and binds to the CD8+ cells. This enables PET imaging and may detect CD8+ T-cell distribution and activity and may help determine the patient's response to cancer immunotherapeutic agents more accurately. Giving Zr-89 crefmirlimab berdoxam along with undergoing immuno-PET imaging may work better at identifying immune cell activity in patients with resectable brain tumors.
This clinical trial studies how well fluorine F 18 fluorthanatrace (\[18F\]FTT) positron emission tomography (PET) works in imaging patients with breast cancer that has spread from where it first started (primary site) to other places in the body (metastatic) who are receiving standard of care (SOC) poly (ADP-ribose) polymerase (PARP) inhibitors with or without immune checkpoint inhibitors (ICI) to be able to detect clinical response to PARP inhibitor ± ICI treatment. \[18F\]FTT is a radiotracer that targets and binds to PARP1 which can potentially be used for the imaging of PARP1 expression using PET. Once administered, \[18F\]FTT targets and binds to PARP1. Upon PET, PARP1-expressing tumor cells can be visualized. PET is an established imaging technique that utilizes small amounts of radioactivity attached to very minimal amounts of tracer, in the case, \[18F\]FTT. Because some cancers take up \[18F\]FTT it can be seen with PET. PARP inhibitors work as a targeted therapy by blocking an enzyme involved in repairing cell damage. It may cause tumor cells to die. ICI may help the body's immune system attack the cancer and may interfere with the ability of tumor cells to grow and spread. Combining \[18F\]FTT with a PET scan may help detect tumor cells better in patients with metastatic breast cancer who are receiving standard of care PARP inhibitors with our without ICI treatment.
The purpose of this research is to assess the safety and evaluate the potential of the Multispectral Optoacoustic Tomography (MSOT) device to more precisely identify and assess the neck lymph nodes which might be affected in patients with metastatic head and neck squamous cell carcinomas.
The goal of this study is to visualize the deposition of topical 0.3% roflumilast (Zoryve) compared to vehicle using Line-Field Optical Coherence Tomography (LC-OCT) in vivo in healthy skin. We hypothesize that the application of topical 0.3% roflumilast (Zoryve) will result in distinct patterns of deposition within the epidermal and dermal layers compared to the vehicle. Specifically, we anticipate observing deeper penetration and more uniform distribution of roflumilast within the skin layers, indicative of enhanced efficacy, as visualized by LC-OCT imaging.
Recent advances in radiation treatment have allowed for higher doses per treatment to be delivered safely. This study plans to use an MRI-guided linear accelerator to deliver the radiation treatment to ensure that the radiation dose is administered to the cancerous tumor, not the vital body organs. Potential participants with a sarcoma diagnosis will be referred to Radiation Oncology during this study. If the participant is interested in participating in this study, s/he receives radiation treatment daily for 5 consecutive days except for weekends and holidays. Within 12 weeks of completing the radiation therapy, the participant will have the primary tumor surgically removed. The radiation oncology team will follow the patients for 5 years after completing radiation therapy.
This is a Phase 1, single-center, open-label, single-arm, dose-escalation positron emission tomography study to assess the safety and tolerability, immunogenicity, Pharmacokinetics, dosimetry, and biodistribution after GEH200521 (18F) Injection is co-administered with GEH200520 Injection in healthy volunteers. The estimated study duration for each subject is approximately 28 days. The primary study objective is to evaluate the safety and tolerability of the IMPs, the selected mass doses of GEH200520 Injection co-administered with a fixed dose of GEH200521 (18F) Injection.
The prospective single-arm pilot study, ATHERO-RT: Real-Time Atherosclerosis Activity after Thoracic Radiotherapy using Sodium Fluoride Positron Emission Tomography, will aim to: 1. To deploy first-in-kind application of fluorine 18-sodium fluoride (18F-NaF) PET (Positron Emission Tomography) /MRI (Magnetic Resonance Imaging) imaging to detect real-time atherosclerosis activity at the time of cancer diagnosis and after cardiac radiation exposure 2. To detect longitudinal changes in clonal hematopoiesis (CH) genetic architecture following thoracic RT (Radiation Therapy) in patients at high risk of cardiac dysfunction, and 3. To measure perturbations in the immune-modulatory and metabolic states following thoracic RT (Radiation Therapy) exposure in patients at high risk of cardiac dysfunction. Eligible patients will be adults (≥18 years old) with Stage II-III or oligo-metastatic stage IV malignancy (any histology) at high risk for RT-associated cardiac toxicity (defined as receiving ≥30 Gy (Gray) RT where the heart is in the treatment field54). The study will enroll a total of 10 subjects, recruited from Cedars-Sinai Medical Center. The primary endpoint will be successful completion of 18F-NaF PET imaging at the baseline and 6-month post-RT time points. Blood will be collected at baseline, end of RT, and 6-months post-RT.
This study explores the relationship between myocardial fibrosis and patient outcomes in Atrial Fibrillation (AF), specifically after catheter ablation. It aims to use Cardiac CT, an accessible tool, to measure left ventricular extracellular volume (ECV) as an indicator of fibrosis. The study will assess if higher ECV levels correlate with increased risks of AF recurrence, hospitalization, and poor cardiac function recovery. Positive findings could make ECV a key factor in deciding AF treatment strategies.
The primary purpose of this substudy is to determine if collagen-targeted PET using the type 1 collagen-targeted PET probe, Gallium-68 (68Ga)-labeled collagen binding probe 8 (CBP8) can inform as to drug effect of EGCG and assist in dose selection.
The aim for this study is to assess the diagnostic performance of 64Cu-SAR-bisPSMA PET to detect regional nodal metastases.
Years before someone experiences the symptoms of Alzheimer's disease, a compound called amyloid beta (Aβ) builds up in the brain. Excess Aβ - directly or indirectly - causes many of the symptoms of Alzheimer's dementia. However, recent studies of the FDA-approved drugs lecanemab (Leqembi®) and aducanumab (Aduhelm®) indicate that removing Aβ from the brain doesn't stop Alzheimer's. Clearly, there are other problems that need to be fixed. The investigators are interested in the cause of Aβ buildup. Non-neuronal support cells, called glia, keep neurons healthy by regulating water and nutrient levels for the neurons. They also help clear Aβ away from neurons. Maybe Aβ builds up when glia are unhealthy. Glia are very hard to study in the brain. Luckily, the light-sensing part of the eye - the retina - is an extension of the brain. The investigators study glia in the retina to learn about glia in the brain. To study retinal glia, the investigators take pictures of the retina with optical coherence tomography (OCT). OCT is safe, painless, and is used in many eye clinics to look at the structure of the retina. When the investigators take OCT pictures under a bright light, and compare those to OCT pictures collected in darkness, it gives the investigators information about glial function. In a study published in 2020 ("Optical coherence tomography reveals light-dependent retinal responses in Alzheimer's disease") the investigators showed that this functional OCT measurement was different in people with Alzheimer's dementia, compared to age-matched healthy adults. The goal of this observational study is to compare people at a pre-dementia stage of Alzheimer's disease to people who do not have any signs at all of Alzheimer's disease. By "pre-dementia stage", the investigators mean people who are either cognitively normal, or have mild cognitive impairment, but have had a medical test that shows the chemical beginnings of Alzheimer's disease. Members of the comparison group will also be cognitively normal, or have mild cognitive impairment, but had a medical test that shows utterly no signs of Alzheimer's disease. The main question this study, is whether functional OCT can tell these two groups apart. If so, that would: * Help build the case for glial health being important in the earliest stages of Alzheimer's, which in turn could lead to new treatment strategies, and * Suggest that functional OCT might be used as an early (pre-dementia) screening test for Alzheimer's disease Participants will: * undergo a brief eye exam (the investigators will not dilate pupils for this study) * undergo a paper-and-pencil cognitive test (to help verify "normal" or "mild cognitive impairment" status) * take brief one-page survey to collect demographic information (like age) * permit limited access to pre-existing medical or research records (to verify the presence/absence of the chemical beginnings of Alzheimer's disease) * take several OCT pictures of both eyes, in light and after 2 minutes of darkness (several rounds of images are taken) The expectation is that all study procedures will fit within 2 hours of one day.
Early detection of coronary atherosclerotic disease facilitates adequate prevention. The purpose of this study is to compare an assessment of coronary atherosclerotic disease burden by positron emission tomography / computed tomography (NaF-PET/CT) with those of conventional and ultra-high-resolution-CT (UHR-CT) in patients with suspected coronary artery disease. For this purpose, the investigators plan to include 33 patients with symptoms concerning for CAD who have been referred for cardiac CT testing.
This study will be assessing the ability of PSMA-PET CT to determine the absence of clinically significant prostate cancer in patients on active surveillance (AS) with low risk and favorable intermediate-risk prostate cancer.
This phase II trial tests the safety of positron emission tomography (PET) guided stereotactic body radiation therapy (SBRT) and how well it works to treat non-small cell lung cancer (NSCLC), melanoma, and renal cell carcinoma (RCC) that has up to 5 sites of progression (oligoprogression) compared to standard SBRT. SBRT uses special equipment to position a patient and deliver radiation to tumors with high precision. This method may kill tumor cells with fewer doses over a shorter period and cause less damage to normal tissue. A PET scan is an imaging test that looks at your tissues and organs using a small amount of a radioactive substance. It also checks for cancer and may help find cancer remaining in areas already treated. Using a PET scan for SBRT planning may help increase the dose of radiation given to the most resistant part of the cancer in patients with oligoprogressive NSCLC, melanoma, and RCC.
This study will evaluate the impact of CT-guided adaptive stereotactic radiotherapy (CT-STAR) to central and ultra-central early-stage non-small cell lung cancers on grade 3 or greater toxicity. Online adaptive radiation therapy was until recently only done clinically on an integrated MRI-guided system, but recently, Varian Medical Systems has created a CT-guided radiotherapy machine capable of online adaptive radiotherapy (ETHOS). The vast majority of stereotactic body radiotherapy (SBRT) for early-stage lung cancers is performed on a CT-guided machine rather than an MRI-guided machine, necessitating the evaluation of adaptive radiotherapy using ETHOS in this population. Historically, the non-adaptive, stereotactic treatment of central and ultra-central thoracic disease has been associated with unacceptable rates of grade 3+ toxicity. This has resulted in widespread adoption of a hypofractionated, less ablative 8-15 day treatment courses, with a baseline, one-year grade 3+ toxicity rate of 20%. Use of CT-STAR with daily, CT-guided plan adaptation to carefully spare adjacent organs-at-risk (OAR) in this setting may enable safe delivery of a shorter (5 fraction) and more ablative radiotherapy course.