View clinical trials related to EBV.
Filter by:Continuous regular monitoring of plasma EBV DNA in nasopharyngeal carcinoma (NPC) after treatment have rarely been investigated. The investigators try to analyze the long-term observational results (role in early relapse detection and impact on survival) in NPC patients after curative treatment.
EBV positive tumor accounts for 8-9% of all gastric cancer (GC) patients. PD-1 antibody has been proved as third line therapy for PD-L1 positive gastric cancer. Previous studies showed that EBV(+) tumors exhibit high response to PD-1 antibody. In this phase II study, we will investigate the efficacy and safety of PD-1 antibody in EBV positive metastatic GC patients.
This study compared the performance of three automated immunoassays, Architect (Abbott), Immulite (Siemens) and Liaison (Diasorin), for Epstein-Barr virus (EBV) serology. Ninety-one serum samples collected in Amiens University Hospital were analyzed for the presence of Viral Capsid Antigen (VCA) IgG and IgM and Epstein-Barr Nuclear Antigen (EBNA) IgG. The agreement between the three assays was calculated for each marker individually and for determination of the EBV profile, based on interpretation of the combination of these three EBV markers.
Adequate control of immunosuppression is critical in preventing graft failure after solid organ transplantation (SOT) and in avoiding life-threatening viral and malignant complications. Prolonging patient and graft survival and delaying re-transplantation as children reach adulthood is critical to optimal use of a scarce resource. This requires tailoring post-transplant management to the unique needs of the child. Immunosuppression management is challenging in infants, children and youth. The interval from birth to young adulthood sees profound changes in physiological processes, body size and immune maturation; infancy and adolescence are the periods of most rapid and dramatic change. Three pivotal factors affect immunosuppression control in the child: 1) age-dependent variation in drug metabolism; 2) developmental changes in immune function with increased childhood susceptibility to infections, including those caused by viruses; and 3) behavioural changes in adolescence and young adulthood linked with poor treatment adherence. This project will identify the most important factors influencing immunosuppression control across the pediatric age range, from infancy to young adulthood, including age-related changes in drug metabolism, immune function, and susceptibility to viral infections, as well as health care system factors affecting treatment adherence. This is the first comprehensive, multi-organ transplant study to identify age-related biologic and health care systems determinants of variability in immunosuppression control in children and youth. Results will inform personalized age-appropriate strategies to improve immunosuppression control and reduce the unacceptably high graft failure and viral complication rates in this vulnerable population. The POSITIVE Study brings together researchers across Canada and is one of 6 projects and 3 cores that constitute the Canadian Institute of Health Research (CIHR) funded interdisciplinary research program called the Canadian National Transplant Research Program (CNTRP). The CNTRP is a national program designed to increase organ and tissue donation in Canada and enhance the survival and quality of life of Canadians who receive transplants. As a national program, CNTRP provides robust power for pediatric studies that would not otherwise be possible. While primarily focused on issues unique to a pediatric and young adult population, this study will interact closely with all other CNTRP projects. These reciprocal interactions will accelerate new discovery that can be cross-applied in different populations outside of pre-specified age groups. Interactions will ensure rapid knowledge transfer, uptake and dissemination into practice. This is the largest national cohort study of pediatric transplant patients to date in Canada, and it will create a longitudinal dataset with clinical and biological specimens linkable to transplant registries and provincial administrative datasets.
This study is being done to investigate the impact of changing immunosuppressive medications from tacrolimus (Prograf®) to belatacept (Nulojix®) between three (3) and six (6) months after kidney transplantation. The immune system is the body's defense against infection and other disease. After transplantation, the body sees the new organ as "foreign" and tries to destroy or "reject" it. Immunosuppressive medications help to prevent the immune system from attacking the transplanted organ. The primary purpose of this research study is to evaluate the effects of three (3) different immunosuppressive treatments on rejection in post-transplant kidney recipients. This study will test whether switching from tacrolimus to belatacept will improve long-term kidney function. Three of the immunosuppressants used in this study- mycophenolic acid (MPA), mycophenolate mofetil (MMF) and tacrolimus- are medications approved by the United States Food and Drug Administration (FDA) to be used after transplant. All of these medications have been routinely used in kidney recipients here at Northwestern University. Belatacept (the "study drug") has been approved by the FDA for use at the time of transplant. However, the use of belatacept in this study is considered investigational as it has not been FDA approved for use beginning at 3 months after transplant. This study will involve 51 adult kidney transplant recipients at Northwestern.
In this study, investigators are trying to see if infusion of "m-CTLs" will prevent or treat cytomegalovirus (CMV), Epstein Barr Virus (EBV) and adenovirus (AdV) reactivation or infection after cord blood transplant. Patients with blood cell cancer, other blood disease or a genetic disease may receive a cord blood transplant (UCBT) from an unrelated donor. After receiving a cord blood transplant, they are at risk of infections until a new immune system to fight infections grows from the cord blood cells. In this study, investigators are trying to give special cells from the cord blood called T cells. These cells will try to fight viruses that can cause infection. Investigators will test to see if blood cells from donor that have been grown in a special way, can prevent patients from getting an infection. EBV, AdV and CMV are viruses that can cause serious life-threatening infections in patients who have weak immune systems after transplant. T lymphocytes can kill viral cells but normally there are not enough of them to kill all the virus infected cells after transplant. Some researcher have taken T cells from a person's blood, grown more of them in the laboratory and then given them back to the person during a viral infection after a bone marrow transplant. Some of these studies have shown a positive therapeutic effect in patients receiving the CTLs (specially trained T cells) after a viral infection in the post-transplant period. In this study we are trying to prevent or treat viral infections by given the CTLs soon after getting the umbilical cord blood transplant. With this study, investigators want to see if they can use a kind of white blood cell called T cells to prevent or treat AdV, EBV and CMV infection. Investigators will grow these T cells from the cord blood before transplant. These cells have been trained to attack adenovirus/EBV/CMV- infected cells and are called multivirus-specific cytotoxic (killer) T-cells or "m-CTL." Investigators would plan to give patients one dose of m-CTL any time from 30 to 364 days after your transplant. They have used T cells made in this way from the blood of donors to prevent infections in patients who are getting a bone marrow or blood stem cell transplant but this will be the first time investigators make them from cord blood.