View clinical trials related to EBV.
Filter by:Hemophagocytic lymphohistiocytosis (HLH) is a rare, poorly recognized and underdiagnosed syndrome of excessive immune activation, which is rapidly fatal. Epstein-Barr virus (EBV) is a common trigger of HLH, particularly in Asian individuals. We aim to analyze metabolomics and cytokine profiles of patients before and after treatment to explore the metabolomic characteristics of EBV-HLH, and search for pathogenic mechanisms and therapeutic targets.
Background: Epstein-Barr virus (EBV) causes most cases of infectious mononucleosis (mono). Up to 1 in 10 people who get mono can have fatigue that lasts more than 6 months. One out of 100 people can have severe complications. EBV is also associated with several types of cancer. Researchers want to test an EBV vaccine. Objective: To test the safety of and immune response to a new vaccine against EBV. Eligibility: Healthy adults ages 18-29 Design: Participants will be screened with a medical history and physical exam. They will give a blood sample. Screening tests will be repeated during the study. Participants will get a dose of the study vaccine as an injection in a muscle in the upper arm. They will be observed for 30 to 60 minutes. Blood pressure, heart rate, breathing rate, and temperature will be checked. The injection site will be examined. Participants will get a diary card. They will write down any side effects they have after the vaccine dose, or they may use an electronic diary card. Participants will be asked to write down or enter any important medical events that may occur at any time during the study. Participants will get a vaccine dose at 2 more study visits. They will have 4 follow-up visits at different times after a vaccine dose. Participants will have 6 telephone calls in between the in-person visits. They will also have 1 telephone call 1 year after the third dose of vaccine. If possible, this visit can occur in person. Participation will last about 18 months. There is an optional in-person visit or telephone call 2 years after the third dose of vaccine.
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.
COPD is a major public health problem and will shortly become the third most common cause of global mortality. There are currently no treatments that can meaningfully alter the progression of COPD or the time to death. Consequently novel therapeutic strategies for COPD are urgently required. This will be a randomised, double-blind, placebo-controlled, trial of Epstein-Barr virus suppression in COPD. Participants will be randomised to receive valaciclovir 1 gram three times daily for 8 weeks or matching placebo. The study will measure EBV suppression using quantitative PCR. Secondary outcomes will include Lung function quality of life and drug tolerability. The exploratory analysis will evaluate biomarkers of airway inflammation within the sputum and blood.
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.
1. To compare the therapeutic effects, safety and the corresponding pharmacokinetics and pharmacodynamics between two different method of drug administration: 10mg, daily and 30mg/d, twice every week, and find out the more effect way of Chidamide administration. 2. To examine whether Chidamide could activate EB virus, and whether the above two different ways of administration are different in EB virus activation.
To assess the safety and biological efficacy of therapeutically administered most closely HLA-matched third party donor-derived specific cytotoxic T lymphocytes (CTLs) targeting cytomegalovirus (CMV) or Adenovirus (Adv) or Epstein Barr virus (EBV) or fungi including Aspergillus and Candida species for the treatment of viral infection following allogeneic blood or marrow stem cell or solid organ transplantation.
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.