View clinical trials related to CMV Infection.
Filter by:This study evaluates the efficacy and safety of an individualized preventive strategy against CMV infection in CMV seropositive heart transplant patients based on the specific basal response of the lymphocytes againts CMV (ELISPOT Interferon-γ assay). In two thirds of the patients a preventive strategy will be carried out based on the result of the ELISPOT IFN-γ assay and in one third of the patients the standard of care strategy will be carried out (universal prophylaxis).
The purpose of this study is to determine of letermovir (LTC) is effective at preventing Cytomegalovirus (CMV) infection from returning in people who have already had CMV infection after a bone marrow transplant.
The present trial will consist of the treatment of 20 pediatric and adult Hematopoietic Stem Cell Transplantation (HSCT) recipients or immunocompromised participants diagnosed with opportunistic Cytomegalovirus (CMV) infections with virus-specific, antigen-selected T-cells. CMV-specific T-cells will be isolated from donor leukapheresis products using the CliniMACS® Prodigy. Prior studies on transfer of CMV specific T-cells have been shown to be safe and efficacious in the treatment of CMV infections. The main trial objective is to evaluate the feasibility and safety of CMV-specific T-cell transfer in adult and pediatric participants suffering from CMV infections or reactivation following HSCT or due to other immunocompromised states (e.g.; primary immunodeficiency, cytotoxic therapy). Participants will be followed for one year.
Epstein Barr Virus (EBV) or Cytomegalovirus (CMV) infection results in significant morbidity and mortality in hematopoietic stem cell transplantation (HSCT) patients. HSCT patients often face opportunistic infections due to the immunosuppressive state during transplantation. Antimicrobial drugs are usually used for prophylactic purposes and for treatment after early detectable infections. Unfortunately, some patients develop resistance to such drug treatment. In addition to HSCT patient, immune compromised patient may also be victim to opportunistic infections. Many infections can be effectively managed by functional immune recovery. In this study, the safety and efficacy of microbial-specific cytotoxic T lymphocytes (CTLs) will be investigated.
Viral infections remain an important cause of morbidity and mortality after allogeneic stem cell transplantation (SCT), especially after myelo-ablative conditioning and if the donor is antigen-mismatched or haplo-identical.. In the described setting the patient's own immune system has been destroyed by the necessary highly immuno- and myelo-ablative conditioning and all memory against infections has been deleted. Therefore, there is a high risk for several viral infections and other infectious organisms.Both primary viral infections and reactivations can occur, and patients can become refractory to antiviral treatments, or in some cases an adequate antiviral treatment is unavailable or too toxic. In this study, the investigators will target CMV, as refractory CMV infection and disease is accompanied by an extremely high mortality rate and therefore the development of new treatment approaches is required. Despite the available antiviral drugs, a considerable number of patients are facing an insufficient control of CMV reactivation after SCT. Because reconstitution of CMV-specific T cells confer protection against the development of CMV disease after SCT, attempts have been made to restore antiviral immunity by direct infusion of CMV-specific T cells. Most clinical cellular immunotherapy protocols for CMV treatment have used CMV-specific cytotoxic CD8+ T-cell lines generated by repetitive in vitro stimulation with CMV antigens with success. Despite the proven efficacy, use of cellular therapy in the clinic has been limited, because the approach is time and labor consuming and requires specialized facility allowing handling of the therapeutic cells according to good manufacturing practice. In addition, no sustained response was seen after adoptive transfer that involved only cytotoxic CD8+ T cells. This phenomenon is supported by the fact that recall responses to latent infections depend on the presence of CD4+ T cells to help cytotoxic CD8+ T cells. An alternative approach for the transfer of T-cell immunity is the isolation of Ag-specific T cells ex vivo from the blood of CMV seropositive donors, based on interferon γ (IFN-γ) secretion of T cells after in vitro stimulation with viral Ag, resulting in a combination of CD4+ T helper and cytotoxic CD8+ CMV specific T cells. Using this strategy, a short-term ex vivo protocol was developed for the isolation of pp65 (CMV immunodominant protein)-specific T cells. Since then, several centers have used this protocol in the clinic, infusing low numbers of pp65-specific T cells, that were able to restore protective T-cell immunity against CMV in a post SCT setting in patients with refractory CMV disease or viremia. For this protocol the investigators have set up and validated this method of CMV-specific T-cell generation in the Ghent University Hospital and the investigators will make it available for other Belgian transplant centers.
The study will test the hypothesis that CMV TCR-transduced T cells, at a specific T-cell dose/kg, can generate a functional CMV immune response post-transplant, where CMV-specific donor T cells cannot be isolated by conventional means. This will be tested in the context of adult HLA-matched sibling allogeneic HSCT. In the proposed trial, an HLA-A*0201-restricted CMV pp65-specific T cell receptor (TCR) will be introduced into donor T cells via ex vivo GMP retroviral transduction. Donor T cells will be isolated from peripheral blood following a simple venesection procedure. The CMV TCR-transduced T cells will be tested for TCR expression, CMV-specific cytokine secretion and microbiological contamination before being frozen and stored at -80C. CMV seropositive transplant recipients will be tested weekly for CMV reactivation by quantitative PCR on peripheral blood. On first detection of CMV DNA > 200 copies/ml, 104 (cohort 1) or 105 (cohort 2) bulk CMV TCR-transduced T cells/kg recipient weight will be infused into the patient. Blood will be taken regularly to determine persistence and expansion of the CMV TCR-transduced T cells. Weekly CMV PCR will be continued. Patients will be examined at appropriate intervals (daily if inpatients, twice weekly in BMT clinic if outpatients) for the development of graft versus host disease (GVHD) or other potential side effects.
Cytomegalovirus (CMV) infections remain an important cause of morbidity and mortality in allogeneic hematopoietic cell transplant (HSCT) recipients, especially in patients received haploidentical transplantation. During the past decades, prophylactic or preemptive treatment with antiviral drugs has significantly reduce the incidence of early-onset CMV infection. Unfortunately, prolonged antiviral treatment is associated with substantial toxicity and may delay recovery of virus specific immune responses, resulting in an increasing of late-onset CMV disease. To date, adoptive immunotherapies have been developed as treatment alternatives to antiviral agents for CMV infection after HSCT. Studies have demonstrated that prophylactic or preemptive therapy with donor CMV-specific T cells can restore antiviral immunity and clear CMV viremia after transplantation. In this prospective clinical phase I/II trial, we propose to reconstitute antiviral immunity against CMV by preemptive transfer of CMV-specific T cells at an early time point after allogeneic stem cell transplantation. We also propose to demonstrate whether protect against CMV is associated with recovery of CMV-specific T cells.
Cytomegalovirus is a herpesviridae whose prevalence in general population is between 50 to 80%. In immunocompetent individuals, CMV remains latent in a number of cells, without any pathological consequence. Immunosuppression may reactivate the virus causing either a CMV-active infection or a CMV disease with attributable symptoms. In Intensive Care Unit (ICU), 6 to 30 % of critically ill patients without classical immunosuppression, as those suffering from septic shock, present CMV reactivation. Our aim is to study the risk factors for developing viremia or CMV disease in ICU patients in septic shock without previous immunodepression and determine the relationship between viral reactivation and this acquired immunity alteration.
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.
The aim of this prospective, randomized study is to assess a subject's immunological status against hCMV before kidney transplantation by an hCMV-specific interferon (INF)-γ ELISPOT technique confirming previous results and establishing their statistical validity in order to determine whether this test could be used routinely in clinical practice to assess the risk of developing hCMV infection after renal transplantation and, ultimately, identify the most effective individual antiviral therapeutic strategy against hCMV.