View clinical trials related to Cytomegalovirus Infections.
Filter by:RATIONALE: Tests that measure certain changes in blood in patients at high risk of cytomegalovirus infection may help doctors learn more about predicting cytomegalovirus infection after donor stem cell transplant. PURPOSE: This clinical trial is studying tests that measure changes in the blood in patients at high risk of cytomegalovirus infection after undergoing donor bone marrow transplant or peripheral stem cell transplant.
This prospective study evaluate the immune status of patients admitted in ICU.CMV remains dormant in the body, but in people with immune deficiency, CMV could reactivate and cause life-threatening pneumonia.
The purpose of this study is to test the safety of a transfusion of specialized white cells from your transplant donor's blood, called T-cells, that have been grown and immunized against the CMV virus in the test tube. If the transplant donor is immune to CMV (ie: the donor has antibody to CMV in the blood), the T-cells will be selected and grown from the blood of the transplant donor. However, if the transplant donor is not immune to CMV, or if T-cells from the donor are not readily available, CMV-immune T-cells grown from the blood of another normal donor who is partially matched to the patients tissue type can be used. The transplant physician will explain which of these treatments is available to the patient. This trial is called a phase I trial because phase I trials are designed to test the safety of different doses of an experimental treatment. We want to find out what effects, good and/or bad, a dose/doses of these immune T-cells will have on the patient and on the CMV infection. Specifically, we wish to test CMV immune T-cells grown from your blood using a new method developed at our center. In this method, fragments of an important CMV protein, called CMVpp65, are chemically synthesized and then used to immunize T-cells in the test tube.
This study examines the immunologic and virologic effects of prophylactic CMV specific CTL in recipients of T cell depleted stem cell transplant (TCD SCT) at Duke University Medical Center (DUMC), by measuring levels of CMV DNA and virus specific T cell precursors at intervals post-infusion.
21 patients were randomised to receive instructions and coaching or no intervention on the use and intake of ganciclovir. Intake of medication was measured by an electronic pill box. The duration of the study was 100 days.
RATIONALE: Collecting the T cells from a donor and transplanting them into a patient may be effective treatment for immunodeficiency syndrome and CMV infection. PURPOSE: This clinical trial is studying the emergency use of adoptive immunotherapy with CMV-specific T cells after donor bone marrow transplant of an infant with immunodeficiency syndrome and CMV infection.
According to a survey from Department of Health in 2004, cancer has been the leading cause of death in the Taiwan area. In 2004, people died of cancer, accounting for 27.2 percent of all deaths. The major reason of the superior grade is that cancer has the ability to escape the surveillance of immune system. It is also a main issue to address in medical research. Dendritic cells (DCs), the most potent APC, are located at sites of pathogen entry, acquire antigens from pathogens or pathogen-infected cells, and process these antigens for both class I and class II presentation. Upon antigen encounter, they termed immature DCs, undergo a maturation process, they are capable to present captured antigens to T cells. This maturation step allows DC migration to trigger adaptive immune responses. These features make DCs very good candidates for therapy against various pathological conditions including malignancies. Therefore, two concepts in this project will be concerned: one is enhancement of T cell immunity and the other is improvement of the efficiency of DC-tumor fusion. The strategy of enhance T cell is using well-known cytokines, such as IL2, and IL7 to expand the tumor-specific CD4 and CD8 T cells before DC-vaccine treatment. In the past, scientists utilized polyethyleneglycol to fuse cancer cells and dendritic cells. However, the results were devastating. Two new approaches of the DC vaccine will be applied to this study: DC-tumor fusion and DC phagocytosed apoptosed tumor cells. Whole tumor cells will be fused with DCs by combining hypotonic buffer and electrical-based fusion protocols. The safety of hybrid cell vaccination has been shown in clinical trials with some encouraging anti-tumour effects. However, data are as yet insufficient to assess a clear therapeutic benefit. Hopefully, the combination of two strategies will improve the efficiency of DC vaccine and boost survival of cancer patients. As we have gained a clearer understanding of the cellular and molecular events that modulate antigen presentation and T cell activation in vivo, new strategies have emerged, allowing the development of more potent second generation DC vaccines.
RATIONALE: Vaccines may help the body build an effective immune response to kill cytomegalovirus infections. PURPOSE: This phase I trial is studying the side effects and best dose of vaccine therapy in treating patients who have undergone a donor stem cell transplant and have cytomegalovirus infection that has not responded to therapy.
The purpose of this research study is to investigate whether or not oral maribavir is safe and effective compared to oral ganciclovir for preventing CMV disease when administered for up to 14 weeks in patients who have had a liver transplant.
Cytomegalovirus (CMV) infection is known to cause hearing loss and mental retardation. The purpose of this study is to compare a 6-week course to a 6-month course of the drug valganciclovir in babies born with CMV to assess the safety and efficacy of this treatment. Participants will include 104 infants (30 days old or younger) born with CMV disease. All infants will take valganciclovir by mouth for 6 weeks. At the end of the 6 week period, subjects will be assigned by chance to receive either valganciclovir or placebo (inactive substance) to complete the 6 months of antiviral treatment. Patients will be followed for the study related evaluations of safety, changes to hearing, and developmental milestones for up to 2 years. Patients will be followed by telephone contact for an additional 3 years. Thus, participants may be involved in study related procedures for approximately 5 years.