3,454 Clinical Trials for Various Conditions
While tremendous progress has been made against HIV, both in preventing the infection and in treating AIDS, the disease it causes, AIDS-related malignancies like Kaposi sarcoma (KS) remain a significant health burden, in both the U.S. and especially the developing world. In many cases, multiple KS lesions develop simultaneously, and may progress and regress independently. Photographs are an essential part of the evaluation for KS, as reflected in their formal usage described in the KS Tumor Assessment Manual of Procedures. However, acquiring a clear, informative photo is not trivial, since anatomy is 3D and conventional imaging is 2D. The importance of accurate, quantitative 3D information is especially pronounced for the treatment of KS because when a tumor responds positively to treatment, the initial change is usually a flattening of the lesion, without any significant change in the projected 2D area. To evaluate the vertical space, along with other characteristics of a KS lesion, we have created an innovative imaging system, SkinScan3D, utilizing new commercial liquid lens technologies and AI based image analysis software, with strategies borrowed from astronomical imaging techniques previously used on NASA space telescopes. In this study, the investigators will develop and demonstrate a protocol for recording measurable 3D parameters, which may be used in a longitudinal study to rigorously monitor therapeutic responses of KS and statistically compare with that of the conventional AMC criteria.
This phase of the protocol (protocol part B), seeks to evaluate the new formulation in healthy normal volunteers to confirm the new formulation provides comparable human dosimetry to which was seen and published in protocol part A. Additionally, the new formulation will be studied utilizing an expanded patient population to include patients with confirmed diagnosis of multiple myeloma (MM), low-grade lymphoma, or MM and lymphoma patients who are status post bone marrow transplant (BMT) with negative imaging and suspected recurrence.
This is a phase I/Ib imaging study of granzyme B, 64-copper granzyme targeting restricted interaction peptide specific to family member B (64Cu-GRIP B) Positron Emission Tomography (PET) in patients with relapsed/refractory non-Hodgkin's lymphoma (NHL) receiving CD19-directed Chimeric antigen receptor T cells (CAR-T) therapy. The proposed study represents the first-ever lymphoma patient imaging studies with 64Cu-GRIP B PET. The tracer is designed to detect extracellular granzyme B as it is secreted by activated immune cells in the tumor microenvironment, which may highlight tumors that will exhibit a durable response to Cluster of Differentiation 19 (CD19)-directed CAR T-cell therapy.
The goal of this observational study is to identify targetable neural substrates of depression in Parkinson's Disease for the first time in people with Parkinson's between the ages of 40 and 80, who are experiencing symptoms of depression.
Background Acute lymphoblastic leukemia (ALL) accounts for about 25 percent of childhood cancers and for about 20 percent of adult leukemias. The disease can be treated with CAR T-cell infusion but non-central nervous system (CNS) extramedullary disease (EMD) is associated with lower rates of complete remission. 18-fludeoxyglucose (18F-FDG) positron emission tomography-computed tomography (PET-CT) has been shown to be effective for detection of non-CNS EMD in ALL. Pre and post CAR T-cell infusion may help to predict outcomes and risk of early progression. Objectives To describe the number of adults with relapsed/refractory B-cell ALL who proceed to CAR T-cell therapy. Eligibility Participants \>=18 years with relapsed/refractory B-cell ALL who are being screened for CAR T-cell clinical trial enrollment, and Participants \<18 with relapsed/refractory B cell ALL who are being screened for CAR T-cell clinical trial enrollment and have a clinical indication for FDG PET-CT prior to CAR infusion. Design Pilot study to add screening FDG PET-CT as part of the pre-CAR T-cell baseline evaluation with additional imaging at day 28 and future timepoints pending evidence of non-CNS EMD on initial scan.
This is a single-center, prospective pilot study evaluating feasibility and efficacy of incorporating magnetic resonance imaging (MRI) simulation into the planning of radiation treatment (RT) for breast cancer.
The goal of this clinical trial is to investigate the use of an FDA-cleared retinal blood flow imaging instrument called the XyCAM RI and XyCAM FC (Vasoptic Medical, Inc., Columbia, MD) in glaucoma management. The main question it aims to answer are: * Can the investigators use blood flow to discriminate between eyes with early-stage glaucoma and variable-matched controls? * Can the investigators validate that the XyCAM FC simultaneously captures both stereo fundus photography and ocular blood flow monitoring? Participants will be * measured for their blood pressure, heart rate, height, and weight * dilated with tropicamide * imaged using the XyCAM RI, fundus photography, optical coherence tomography, and standard automated perimetry * imaged using the XyCAM RI while inhaling 100% oxygen through a mask
The primary aim of our pilot study is to determine whether fibrosis in the heart can be measured with \[68Ga\]CBP8, a positron emission tomography (PET) probe, using PET/magnetic resonance imaging (MRI) imaging, in 30 individuals with documented cardiac amyloidosis. The investigators will also enroll 15 individuals with recent myocardial infarction and 15 individuals with hypertrophic cardiomyopathy as positive controls for fibrosis, and the investigators will enroll 5 individuals without cardiovascular disease to undergo \[68Ga\]CBP8 PET/MRI imaging as a healthy control group. The primary hypothesis of this study is that \[68Ga\]CBP8 will bind to interstitial collagen and quantify myocardial fibrosis in patients with cardiac amyloidosis. The investigators hypothesize that \[68Ga\]CBP8 uptake will be greater in patients with cardiac amyloidosis, myocardial fibrosis, and hypertrophic cardiomyopathy than in healthy controls. Secondly, the investigators also hypothesize that \[68Ga\]CBP8 activity more strongly correlates with standard MRI measures in patients with recent myocardial infarction and hypertrophic cardiomyopathy (where extracellular expansion is caused by myocardial fibrosis/collagen deposition) than in patients with cardiac amyloidosis (where myocardial fibrosis is combined with infiltration).
Lymphatic transport was previously examined by these investigators using Near InfraRed Indocyanine Green fluorescence imaging (NIR-ICG) of the upper extremities. They established reliable and reproducible methodologies in RA patients. The purpose of this phase 2 pilot is to study RA disease progression and effectiveness as well as the mechanism of action of clinical interventions using established NIR-ICG methodologies in previous studies.
This is a single arm prospective pilot trial that evaluates the ability of a novel imaging agent (68Ga-FAP-2286) to identify pathologic fibrosis in the setting of hepatic, cardiac and pulmonary fibrosis. FAP-2286 is a peptide that potently and selectively binds to Fibroblast Activation Protein (FAP). FAP is a transmembrane protein expressed on fibroblasts and has been shown to have higher expression in idiopathic pulmonary fibrosis (IPF), cirrhosis, and cardiac fibrosis.
The purpose of this study is to find out whether pre-operative mpMRI using additional MRI sequences may improve surgical outcomes by providing more accurate information about the extent and acidity of the tumor than standard MRI, and to see whether the use of the fluorescent imaging agent pHLIP ICG and NIRF imaging during surgery is a safe approach that may allow the surgeon to see the tumor and nearby tissues that contain cancer cells more clearly and remove them completely. During the Phase IIa part of this study, the safe dose of pHLIP ICG will be used that makes it easy for the surgeon to see the tumor and the nearby tissues and structures that may contain cancer cells. This study is the first to test pHLIP ICG in people, and the first to test the use of pHLIP ICG with mpMRI and NIRF imaging in surgery for breast cancer.
The investigators are seeking healthy adult volunteers 18-60 years and healthy pregnant women in their 2nd trimester of pregnancy for a research study to assess a new imaging device. The Tearney Laboratory at the Wellman Center for Photomedicine at Massachusetts General Hospital is developing high-resolution imaging devices that can be used to improve diagnostics in gastrointestinal diseases.
The purpose of this study is to see how well the experimental imaging agent 89Zr-DFO-HuMab-5B1 attaches to pancreatic tumors, and to find out whether PET/CT scans done with this imaging agent produce better images of cancer.
Directly examine whether early (6-month) imaging with DaTscan and \[¹⁸F\] AV-133 will provide an early signal of disease progression in recently diagnosed untreated PD patients.
The purpose of this study is to measure the amount of amyloid in the brain. Amyloid is a protein found in the brain of patients with Alzheimer's disease and can be detected using a Positron Emission Tomography (PET) scan. This study is interested in how amyloid levels in the brain relate to memory and thinking abilities.
Pilot study to test feasibility of 6 months of Duavee® vs wait-list control in post-menopausal women symptomatic for hot flashes.
To provide expanded access to 68Ga-PSMA-11 PET imaging for eligible participants to detect and localize prostate cancer for initial and subsequent treatment strategy.
This clinical trial will look at scans of the hands and wrists taken from healthy control subjects (HCs) and from subjects with rheumatoid arthritis (RA). Before each scan, subjects will be given an injection of Tc 99m tilmanocept to help the scan identify inflammation in the hand and wrist joints, which can be a part of the RA disease. Data from the scans will be used to calculate a number referred to as tilmanocept uptake value (or TUV) that is a measure of how much Tc 99m tilmanocept has located in the joints. The questions this trial aims to answer are: * How consistent are the scan results (TUVs) when the scans are repeated over time? * What are normal TUVs in healthy people? This will help define abnormally high values in people with RA. * Are TUVs calculated early after a person starts a new drug to treat RA able to predict whether that person will have a good response to the drug later on (after it has had time to take full effect several weeks later)?
This phase II trial studies the side how well hyperpolarized carbon C 13 pyruvate (HP C-13 pyruvate) magnetic resonance imaging (MRI) works in monitoring patients with prostate cancer on active surveillance who have not received treatment. Diagnostic procedures, such as MRI, may help visualize HP C-13 pyruvate uptake and breakdown in tumor cells.
This study evaluates the diagnostic performance and safety of 18F-DCFPyL (PyL) PET/CT imaging in patients with suspected recurrence of prostate cancer who have negative or equivocal findings on conventional imaging.
The present study is a phase II, open label, single-center, non-randomized, single-dose study. Twenty subjects in total will be enrolled at Weill Cornell Medical College (WCMC)/ NYPH. The primary objective is to evaluate the ability of 89Zr-Df-IAB2M to detect localized, clinically significant (defined as: ≥ 0.5 cm3 with Gleason pattern ≥ 4) prostate cancer (PCa). After the screening period (up to 28 days), each subject will be scheduled to receive 10 mg infusion of IAB2M conjugated with 2.5 mCi 89Zr-Df. 2 - 4 days post-infusion, subjects will undergo a 89Zr-Df-IAB2M PET/CT scan. Images read by a Nuc Med MD reporting: location, SUV and, if possible, size of all areas with abnormal uptake. (they will also undergo a pelvic MRI if they have not obtained an MR image during the screening period or on day of infusion) Optional but recommended 68Ga-PSMA-HBED-CC (5±2mCi) injection and PET/CT scan (1 to 3 hours after the injection) will also be performed prior to radical prostatectomy depending on subject's availability and compliance. Patient will undergo radical prostatectomy after completion of above imaging procedures.
The primary aim of this study is to determine whether a multi-modal, physician-focused behavioral intervention can improve facility-level guideline-concordant utilization of prostate cancer staging imaging. Other aims of this study include to use mixed methods to explore physician influence on guideline-concordant imaging and to determine the cost and cost impact of a physician-focused behavioral intervention to improve guideline-concordant prostate cancer imaging.
This pilot early phase I trial studies how well diffusion tensor imaging works in predicting development of chemotherapy induced peripheral neuropathy in patients with breast cancer. Diffusion tensor imaging may help to get better pictures of the nerves of feet and lower legs before and after chemotherapy treatment and may help to predict the risk of developing peripheral neuropathy.
In this study the researchers will scan the thyroid nodules of patients scheduled for surgical removal of these nodules. During their preadmission testing, but prior to their surgery, the researchers will perform standard ultrasound and shear wave elasticity imaging (SWEI) scans of the thyroid nodules in these patients. Both images can be generated by the same ultrasound scanner and within the same imaging session without having to switch out any equipment. The results of the SWEI scans will be compared to the definitive diagnosis from pathology obtained after pathologists have examined the removed nodules post-operatively.
The contribution of genetic risk factors to the development of focal dystonias is evident. However, understanding of how variations in the causative gene expression lead to variations in brain abnormalities in different phenotypes of dystonia (e.g., familial, sporadic) remains limited. The research program of the investigators is set to determine the relationship between brain changes and genetic risk factors in laryngeal dystonia (or spasmodic dysphonia). The researchers use a novel approach of combined imaging genetics, next-generation DNA sequencing, and clinical-behavioral testing. The use of a cross-disciplinary approach as a tool for the discovery of the mediating neural mechanisms that bridge the gap from DNA sequence to the pathophysiology of dystonia holds a promise for the understanding of the mechanistic aspects of brain function affected by risk gene variants, which can be used reliably for the discovery of associated genes and neural integrity markers for this disorder. The expected outcome of this study may lead to better clinical management of this disorder, including its improved detection, accurate diagnosis, and assessment of the risk of developing dystonia in family members.
This study evaluates the safety and diagnostic performance of 18F-DCFPyL Injection in patients with at least high risk prostate cancer who are planned for radical prostatectomy with lymphadenectomy (Cohort A) or in patients with locally recurrent or metastatic disease willing to undergo biopsy (Cohort B). Cohort B is complete and no longer recruiting subjects.
The HARP study is a multi-center, diagnostic observational study employing standardized imaging protocols in patients with MINOCA (MI with Non Obstructive Coronary Arteries) to determine the underlying diagnosis in each participant. Participants will be followed for recurrent clinical events, every 6 months, for a maximum of 10 years.
Approximately 50 participants enrolled in the LEARN study (NCT02488720) will be enrolled in the LEARN-Tau study. The study designed to evaluate the imaging characteristics of 18F-AV-1451 in participants enrolled in the LEARN study and to expand the safety database of 18F-AV-1451. The study will run in parallel to the LEARN study. In this study, participants will undergo up to four (4) 18F-AV-1451 PET scans over a 4.5 year period. Imaging visits will occur at the throughout the participant's participation in the LEARN study (corresponding to LEARN Visit 1, between Visit 4 and 6, Visit 8, and Visit 11). The LEARN-Tau study will (1) look at change in the amount of tau protein in the brain over time, measured by the 18F-AV-1451 PET scan, (2) see if tau protein in the brain of older individuals is associated with memory problems and (3) evaluate the safety of 18F-AV-1451 and any side effects that might be associated with it. Site investigators, participants, and study partners will not be informed of the results of the 18F-AV-1451 PET scan results as they relate to the study; however, any findings that may be of potential medical concern will be provided for appropriate follow-up.
The investigators propose to conduct Carbon-11 Sodium Acetate PET/CT studies. The purpose of our study is to evaluate the impact of Carbon-11 Sodium Acetate PET/CT studies on patient management in patients with prostate cancer.
Determine the localization of Tc 99m tilmanocept by SPECT and SPECT/CT imaging in subjects with active RA and concordance with clinical symptomology.