View clinical trials related to Lymphatic Diseases.
Filter by:Lymphatic Anomalies (LA) is characterized by proliferation of lymphatic tissue causing deterioration of pulmonary function. Understanding changes in lymphatic anatomy in these patients is hindered by the difficulty of imaging the lymphatic system. Dynamic Contrast Enhanced MR Lymphangiogram (DCMRL) may be useful in investigating pathological changes in the lymphatic system.
The body has different ways of fighting infection and disease. No single way seems perfect for fighting cancer. This research study combines two different ways of fighting disease: antibodies and T cells. Antibodies are proteins that protect the body from disease caused by bacteria or toxic substances. Antibodies work by binding those bacteria or substances, which stops them from growing and causing bad effects. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including tumor cells or cells that are infected. Both antibodies and T cells have been used to treat patients with cancers. They both have shown promise, but neither alone has been sufficient to cure most patients. This study is designed to combine both T cells and antibodies to create a more effective treatment called autologous T lymphocyte chimeric antigen receptor cells targeted against the CD30 antigen (ATLCAR.CD30) administration. In previous studies, it has been shown that a new gene can be put into T cells that will increase their ability to recognize and kill cancer cells. The new gene that is put in the T cells in this study makes an antibody called anti-CD30. This antibody sticks to lymphoma cells because of a substance on the outside of the cells called CD30. Anti-CD30 antibodies have been used to treat people with lymphoma, but have not been strong enough to cure most patients. For this study, the anti-CD30 antibody has been changed so that instead of floating free in the blood it is now joined to the T cells. When an antibody is joined to a T cell in this way it is called a chimeric receptor. These CD30 chimeric (combination) receptor-activated T cells seem to kill some of the tumor, but they do not last very long in the body and so their chances of fighting the cancer are unknown. The purpose of this research study is to establish a safe dose of ATLCAR.CD30 cells to infuse after lymphodepleting chemotherapy and to estimate the number patients whose cancer does not progress for two years after ATLCAR.CD30 administration. This study will also look at other effects of ATLCAR.CD30 cells, including their effect on the patient's cancer.
EUS-FNA is the recommended diagnostic examination of choice when patients present with suspected lower mediastinal lymph nodes on imaging. EUS-FNA is minimal invasive and low in costs, and although it has a good record in detecting diseases (eg confirm a nodal metastasis or granulomas) it has limitations in excluding diseases (missing metastases/ or granulomas) resulting in a false negative rate of 15-20%. Substantial limitations that most likely can be attributed to areas within the node that are not sampled during EUS-FNA tissue acquisition. Improved needle based EBUS/ EUS guided nodal diagnostics might result in improved quality of the fine needle aspirations, reduce in surgical diagnostic procedures , reduced costs and result in a shorter timebefore-treatment interval.
The body has different ways of fighting infection and disease. No single way seems perfect for fighting cancer. This research study combines two different ways of fighting disease: antibodies and T cells. Antibodies are proteins that protect the body from disease caused by bacteria or toxic substances. Antibodies work by binding those bacteria or substances, which stops them from growing and causing bad effects. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including tumor cells or cells that are infected. Both antibodies and T cells have been used to treat patients with cancers. They both have shown promise, but neither alone has been sufficient to cure most patients. This study is designed to combine both T cells and antibodies to create a more effective treatment. The treatment that is being researched is called autologous T lymphocyte chimeric antigen receptor cells targeted against the CD30 antigen (ATLCAR.CD30) administration. In previous studies, it has been shown that a new gene can be put into T cells that will increase their ability to recognize and kill cancer cells. A gene is a unit of DNA. Genes make up the chemical structure carrying the patient's genetic information that may determine human characteristics (i.e., eye color, height and sex). The new gene that is put in the T cells in this study makes a piece of an antibody called anti-CD30. This antibody floats around in the blood and can detect and stick to cancer cells called lymphoma cells because they have a substance on the outside of the cells called CD30. Anti-CD30 antibodies have been used to treat people with lymphoma, but have not been strong enough to cure most patients. For this study, the anti-CD30 antibody has been changed so that instead of floating free in the blood part of it is now joined to the T cells. Only the part of the antibody that sticks to the lymphoma cells is attached to the T cells instead of the entire antibody. When an antibody is joined to a T cell in this way it is called a chimeric receptor. These CD30 chimeric (combination) receptor-activated T cells seem to kill some of the tumor, but they do not last very long in the body and so their chances of fighting the cancer are unknown. The purpose of this research study is to determine a safe dose of the ATLCAR.CD30 cells that can be given to subjects after undergoing an autologous transplant. This is the first step in determining whether giving ATLCAR.CD30 cells to others with lymphoma in the future will help them. The researchers also want to find out what side effects patients will have after they receive the ATLCAR.CD30 cells post-transplant. This study will also look at other effects of ATLCAR.CD30 cells, including their effect on your cancer and how long they will survive in your body.
This is a single-arm, open-label, multicenter, phase 2 clinical trial aimed at evaluating the efficacy and safety of the combination of bendamustine and brentuximab vedotin as a first salvage therapy in patients with relapsed or refractory Hodgkin's lymphoma or PTCL. A total of 25 patients with PTCL, and 40 with Hodgkin's lymphoma are expected to be treated according to this treatment protocol.
This is a single-arm, open-label, multicenter, clinical trial to evaluate the efficacy and safety of Brentuximab Vedotin (BV) as a single agent in relapsed/refractory CD30+ PTCL patients.
A Phase 2 study to evaluate safety and efficacy of sildenafil taken orally to improve or resolve lymphatic malformations in children. Subjects may receive either placebo or treatment in an oral dosage with an open label extension for subjects who received placebo. The study treatment assignment will be randomized in a double blind fashion. MRI examination will evaluate change in lesion volume due to treatment. Other safety and efficacy measures will be taken through the 32-week study duration. Funding Source - FDA OOPD
Background: - Lymphatics are a type of vessel, similar to arteries and veins. Lymphatic disorders happen when these vessels don t work properly. Researchers want to look for a relationship between lymphatic disorders and variations of certain genes found in the lung, blood, and other places in the body. Objective: - To learn more about lymphatic disorders and evaluate how genetic factors affect lymphatic disorders. Eligibility: - People ages 2 90 who have a lymphatic disorder or relatives of people with lymphatic disorders. - Healthy volunteers 18 and older. Design: - Participants may have 1 2 visits a year, or more as needed. The study is expected to last 5 years. Visits may last 1 5 days. Participants may have lab tests, medical history, and physical exam at each visit. - Participants may have blood testing that includes genetics tests, and urine tests. They may have nose and throat cultures, saliva collection, and cheek swabs to collect samples. - Participants may have a skin biopsy and have blood taken from an artery. - Participants may have breathing tests and be studied while exercising. - Participants may have an electrocardiogram. Electrodes will be placed on their chest, tracing heart rhythms. They may also have chest X-rays. - Participants may have a bronchoscopy. A thin, flexible instrument will be passed through the nose or mouth, into the lung. A tissue sample will be taken. - Participants who have lymphatic disease or have a relative with it may also have: - CT scans. They will lie on a table and hold their breath while their chest is scanned. - MRI. They will lie flat on a table that slides in and out of a scanner. - ultrasound. A probe is rolled around outside the abdomen. - removal of fluid around the lungs, chest, and abdomen.
The study was performed to determine if either ultrasound guided core biopsy or fine needle aspiration of an axillary lymph node has superior sensitivity in detecting metastatic carcinoma from the ipsilateral breast.
The development of endobronchial ultrasound (EBUS) and EBUS-guided transbronchial needle aspiration (EBUS-TBNA) has improved the safety and diagnostic accuracy of the mediastinal lymph node (MLN) sampling. Still, in some diseases routine cytological specimens are considered insufficient and histological sampling is preferred. The aim of the study is to compare the diagnostic accuracy of EBUS-TBNA and two other, more invasive procedures to obtain histological samples from MLN in patients with clinical and radiological features of sarcoidosis. Bronchoscopy with bronchoalveolar lavage (BAL), EBUS-TBNA, EBUS guided transbronchial forceps biopsy (EBUS-TBFB), large bore (19G) histology TBNA as well as endobronchial forceps biopsy will be performed in 90 consecutive patients with mediastinal lymph node enlargement and clinical and radiological features of sarcoidosis. Diagnostic accuracy of each sampling technique will be calculated and compared to other techniques. Diagnostic yield of different technique combinations will also be calculated and the most efficient diagnostic approach will be defined.