There are more than 492,233 clinical trials published worldwide with over 60,000 trials that are currently either recruiting or not yet recruiting. Use our filters on this page to find more information on current clinical trials or past clinical trials (free or paid) for study purposes and read about their results.
The purpose of this study is to evaluate the safety and efficacy of islet transplants from human cadaver donors into type 1 or surgical diabetes mellitus patients who experience frequent acute or advanced chronic complications but do not qualify for other islet transplant trials. Under this protocol, patients may receive intraportal alloislet transplant under one of the following scenarios: 1. islet transplant alone 2. simultaneous islet-kidney transplant, or 3)islet after kidney transplant.
Patients with unresectable pancreatic cancer in most of cases cannot benefit from percutaneous ablation modalities, due to high risk of procedure-related complications. Ultrasound-guided high intensity focused ultrasound (HIFU) ablation has been introduced as a feasible treatment option in these patients. However, in other anatomical regions US-guided HIFU has been replaced by the more accurate MR-guided focused ultrasound (MRgFUS) ablation, but the applicability of this latter technique to the treatment of pancreatic cancer is still unexplored. The aim of this study is to explore feasibility and clinical performance of MRgFUS ablation of unresectable pancreatic cancer. Two are the main end-points: Pain palliation and local tumor control. As compared to conventional US-guided HIFU, MRgFUS could represent a more accurate, non-invasive ablation modality even for unresectable pancreatic cancer although, to date, no cases of pancreatic MRgFUS ablation have been reported.
The objective of this study is to make T-cell depleted stem cells from a family member who is a half match (haplo-identical) available on an expanded access basis to patients receiving one or two unrelated cord blood transplants who are at a higher risk of not engrafting in a safe amount of time. The purpose of the related stem cells is the give the bone marrow a "jump start" towards recovery. Ultimately, the cord blood cells will grow and permanently rescue the bone marrow.
Background Several studies have shown the effect of osteopathic manipulative treatment on neonatal care in reducing length of stay, gastrointestinal problems, clubfoot complications and improving cranial asymmetry of infants affected by plagiocephaly. Despite several results obtained, there is still lack of standardized osteopathic evaluation and treatment procedures for newborns recovered in neonatal intensive care unit (NICU). The aim of this research is to provide a guideline on osteopathic approach in treating hospitalized newborns. Specific evaluation tests and treatments have been developed to tailor osteopathic method according to preterm and term infants' needs, NICU environment, medical and paramedical assistance.
This purpose of this study is to determine the ability of an 18F-fluoro-L-dihydroxyphenylalanine (18F-DOPA) PET (Positron Emission Tomography) scan to detect a focal lesion of hyperinsulinism and determine the location in patients with congenital hyperinsulinism, Beckwith Wiedemann Syndrome and suspected insulinoma. Safety data will be collected.
Fanconi anemia is a rare autosomal or sex linked recessive genetic disease. The disease is characterized by bone marrow hematopoiesis failure, multiple congenital abnormalities, and susceptibility to neoplastic diseases. The cells of FA patients are extremely sensitive to MMC and DEB. The symptoms and ages of FA patients are different, so by comparing the exome of FA patients and their parents, the mutations that were accumulated in FA patients could be found, and these genes might be sensitive to repairment and be important for hematopoiesis maintainance.
Preoperative evaluation of future remnant liver function is critical for patients undergoing hepatic surgery. Overestimation of the remnant liver function can lead to life-threatening postoperative hepatic failure, and its underestimation can lead to a lost opportunity for potentially curative surgery. Conventionally, post-hepatectomy remnant liver function has been estimated preoperatively using computed tomography (CT) volumetry. CT can provide precise anatomical information, and the remnant liver volume, measured by CT volumetry, has been reported to be an effective predictor of hepatic dysfunction after hepatectomy. However, the indirect estimation of liver function by CT volumetry is reliable only when the function is assumed to be homogenous over the whole liver.
The purpose of this clinical protocol is to treat individuals with Tecovirimat after exposure to orthopox viruses.
The study is an open-label expanded access study for patients for whom vaccine was manufactured during the Northwest Biotherapeutics' 020221 DCVax-L for GBM screening process, but who subsequently failed to meet specific enrollment criteria. Patients will receive therapy per investigator discretion (standard of care) as well as active vaccine per the 020221 protocol administration schedule. It is estimated that approximately 99 patients will enroll in this study.
This clinical trial studies the use of a second infusion of donor hematopoietic cells that have had removal of T cells for the treatment of engraftment failure after a first hematopoietic stem cell transplant. Hematopoietic cell transplants from donors can be complicated by complete or incomplete failure of recovery of blood counts. This results in frequent needs for transfusions and other methods to maintain blood counts at acceptable levels. One way of improving the blood counts in the recipient is to give a "booster" dose of cells from the donor, but this is associated with increased risk of an immune reaction from the donor cells against the recipient cells. To decrease this risk, it is possible to decrease the amount of T cells, responsible for this type of immune reaction. These cells are removed by a special handling of the graft, which allows to remove the cells directly or indirectly (by selecting other cells to "stay" in the graft").