Prevention of Maternal-fetal Cytomegalovirus Transmission After Primary Maternal Infection, GW ≤...
Congenital Cytomegalovirus InfectionA phase 3, open-label, single-arm, prospective, multi-center trial of Cytotect CP Biotest (BT097) for prevention of maternal-fetal CMV transmission after primary maternal CMV infection. The main purpose of the trial is to demonstrate efficacy and safety of Cytotect CP Biotest in preventing maternal-fetal transmission of cytomegalovirus (CMV).
Herpesvirus Immunology in Solid Organ Transplant Recipients - Liver Transplant Study
Cytomegalovirus InfectionsVaricella Zoster Virus Infection1 moreLiver transplantation is the only curative treatment of end-stage liver disease, and every year, around 60 patients undergo liver transplantation in Denmark. Immunosuppressive therapy is necessary to avoid rejection of the transplanted organ. Over 90% of adults have been infected with at least one herpesvirus, and it is characteristic for herpesviruses that after a first-time infection, the virus remains dormant in the body and may reactivate, particularly if the host is immunosuppressed. An effective immune response against reactivation depends highly on T cells, but T cells are suppressed by immunosuppressive drugs given to organ transplant recipients. Infections caused by herpesviruses are therefore very common in organ transplant recipients, and particularly two herpesviruses, cytomegalovirus (CMV) and varicella-zoster virus (VZV) pose challenges after transplantation. CMV causes significant morbidity in transplant recipients, contributes to increased mortality and may contribute to loss of the transplanted organ. CMV infections occur in around 40% of liver transplant recipients within a year of transplantation. VZV causes chickenpox at first-time infection and shingles at reactivation. VZV is the second-most common infection in transplant recipients and occurs in around 9% of liver transplant recipients each year. Organ transplant recipients are at higher risk for disseminated disease with complications compared to immunocompetent persons. A limited number of drugs exist that reduce the risk of and treat CMV infection, but they may cause significant adverse events, and drug resistance is emerging. To avoid CMV infection, some liver transplant recipients receive prophylactic therapy, but due to toxicity, new treatment modalities are warranted. This requires knowledge about herpesvirus specific T cell function in liver transplant recipients, which currently is limited. The aim of this study is to provide an in-depth description of the protective immune response and immunological risk factors for CMV and VZV infections in liver transplant recipients and to identify patients at high risk in order to provide a platform for future treatment modalities against CMV and VZV infections in liver transplant recipients.
Efficacy of Letermovir in Preventing Cytomegalovirus (CMV) Infection in Lung Transplant Recipients...
InfectionsCytomegalovirusThe goal of this quasi-experimental multicenter before-after cohort study, phase II study is to evaluate the efficacy of 12-month letermovir prophylaxis in lung transplant recipients (D+/R-) compared to a historical cohort of lung transplant recipients (D+/R-) who received 12 months of valganciclovir prophylaxis to prevent CMV disease."
Breakthrough CMV Lung Transplant -Multicentre
Cytomegalovirus InfectionsCytomegalovirus (CMV) infection is the most common opportunistic infection in lung transplantation leading to direct and indirect effects that can result in life threatening complications. The risk of CMV infection is highest when the recipient of the transplant has never been in contact with CMV (negative immunity) and the donor had previous contact with CMV (positive immunity). This is called CMV mismatch. For these lung transplant patients 6 to 12 months of prophylaxis with an antiviral called Valganciclovir is recommended. This antiviral can cause side effects like bone marrow toxicity and decrease in immune cells which can result in temporarily having to stop the treatment. Starting and stopping the prophylaxis may result in the CMV becoming resistant to the medication. While taking the prophylaxis it is possible to have a breakthrough of the CMV, this is often due to the development of resistance to the antiviral. The purpose of this study is to learn more about the rate of CMV breakthrough while on prophylaxis after lung transplantation in patients who are CMV mismatch. The investigators will also look at the rates of negative side effects caused by antiviral prophylaxis in this population.
Letermovir Prophylaxis for CMV Infection in Haplo-HSCT Recipients: Single-center Data in China
CMV InfectionHematopoietic Stem Cell TransplantationIn the 30 years fighting against CMV infection, the mortality rate of HSCT patients was significantly reduced. Now we should turn to how to better improve the prognosis of HSCT patients and prevent CMV infection. The emergence of letermovir gave this vision a shot in the arm11-13. Letermovir is the only drug with an indication approved for the prevention of CMV infection in HSCT patients, with a novel mechanism of action characterized by inhibition of the CMV DNA terminase complex. The efficacy and safety of letermovir were well demonstrated in key phase III studies, where letermovir prophylaxis significantly reduced CMV infection and all-cause mortality after HSCT without increased myelosuppression and increased nephrotoxicity (vs. placebo)13. A real-world study of letermovir prophylaxis showed a significant reduction in CMV infection rates (47.0% vs 10.7%), and a significant reduction in antiviral use after 180 days. After more than100 days of continuous use, in addition to a significant reduction in clinically significant CMV infections and patients' overall survival increased, significant efficacy was consistently maintained in patients with grade 2 or greater GVHD14-17. A systematic review and meta-analysis of real-world studies on primary prevention in letermovir was showed in EBMT 2022. A total of 48 real-world observational studies were included, and the results showed that the use of CMV primary prevention was effective in reducing the overall risk of CMV performance (including CMV reactivation, cs-CMV infection and CMV disease), all-cause mortality and non-relapse mortality at day 200 in adult HSCT recipients. At 100 days follow-up, CMV reactivation decreased by 87%, meanwhile clinically significant CMV infection by 91%, CMV disease decreased by 69%, CMV-related hospitalization decreased by 94%, and GVHD decreased by 48%18. Letermovir has achieved excellent therapeutic benefits globally but is still in its infancy in China. Letermovir obtained an implied license for a clinical trial in June 2020, and in November 2020, Letermovir submitted and accepted four new drug marketing applications in China, including injection and tablet formulations. On December 31, 2021, the China National Medical Products Administration (NMPA) approved letermovir for cytomegalovirus (CMV) seropositive adult recipients undergoing allogeneic hematopoietic stem cell transplantation (HSCT) [R+] prevention of cytomegalovirus infection and cytomegalovirus disease. The commercial launch of letermovir is estimated to be in August 2022. Since the seropositive rate of CMV in the Chinese population is over 90%, it is not enough to judge whether CMV prevention is necessary depending on serology. In the past few years, with the increased number of only children in China, haploidentical stem cell transplantation (haplo-SCT) has been showing a steady expanding trend in China. Most hospitals' pretreatment methods use the Beijing protocol (including ATG) rather than post-transplant cyclophosphamide method to prevent GVHD, which also greatly increases the risk of CMV. To our knowledge, there is little published data focused on the efficacy of CMV prophylaxis for patients undergoing the haplo-SCT in China. A "real-life" evaluation of the new drug in terms of efficacy, emergence of resistance, tolerance related to CMV infection, is useful to propose recommendations on management strategies. Therefore, we would like to conduct a prospective observation study of CMV surveillance in haplo-SCT patients receiving letermovir prophylaxis in China, to evaluate the potential real-life effect of letermovir on efficacy, drug resistance emergence, tolerability, and CMV infection-related morbidity and mortality. This work contributes to recommendations regarding CMV management strategies, especially for patients at highest risk, i.e., CMV R+ haploidentical transplant recipients.
Multivirus-specific T Cells in the Treatment of Refractory CMV and/or EBV Infection After Allo-HSCT...
CMV InfectionEBV Infection1 moreTo evaluate the safety and tolerability of partial HLA-matched VSTs against both CMV and EBV viruses in recipients of allogeneic hematopoietic stem cells with refractory viral infections (CMV and/or EBV). Preliminary evaluation of the efficacy of partial HLA-matched VSTs against both CMV and EBV viruses in recipients of allogeneic hematopoietic stem cells with refractory viral infections (CMV and/or EBV); To monitor the duration and expansion of multi-virus VSTs cells after infusion.
A Study of Safety and Immune Response to Different Doses of a Cytomegalovirus Vaccine in Healthy...
Cytomegalovirus InfectionsThe purpose of this study is to assess the safety, reactogenicity and immunogenicity of the candidate CMV recombinant protein subunit (CMVsu) vaccine consisting of a combination of glycoproteins B (gB) and pentamer antigens adjuvanted, regardless of baseline CMV sero-status. This FTiH study will be conducted in healthy adults 18 to 50 years of age, in which the 4 dose levels of the vaccine will be administered in a step-wise dose escalation manner, based upon safety adjudication.
Letermovir for Primary Prophylaxis of Cytomegalovirus Infection After R+HID-HSCT
The Incidence of Peripheral Blood CMV Activation and Confirmed Clinically Significant CMV Infection Within 24 Weeks After TransplantationTo evaluate the efficacy and safety of primary prophylaxis of CMV reactivation, clinically significant CMV infection with oral letermovir in Chinese R+ haplo-HSCT patients, as well as treatment-related mortality and all-cause mortality within 24 weeks after transplantation. For enrolled patients, Letermovir would be administered at a dose of 480 mg per day (or 240 mg per day in patients taking cyclosporine). The regimen would start between +7~+14d after transplantation. The total duration of dosing was approximately 100 days or 14 weeks.
AntiCMV molécules Monitoring in Real-life in Stem Cell Recipients
Hematopoietic Stem Cell TransplantationCytomegalovirus Infections2 moreCytomegalovirus (CMV) is a ubiquitous herpesvirus that represent a major cause of morbidity in haematopoietic stem cell transplants (HSCT) recipients, mostly through reactivation of the recipient's virus. If left untreated, 40 to 80% of patients will develop CMV infection, leading to CMV disease in 30 to 35 % patients, and associated with considerable morbi-mortality. Interstitial pneumonia is the most severe and specific manifestation, although CMV replication by itself has also indirect effects such as triggering graft versus host disease and increasing immunosuppression. The current burden of CMV infection increases by 25 to 30% the cost of the graft in France. This also includes the burden for refractory - infections, that represent up to 13% of recipients with CMV infection, including 3% of cases with virological resistance in France (data from the Reference Center cohorts). Ganciclovir, or valganciclovir preemptive treatment, guided by CMV viral load follow-up allowed significant reduction of CMV disease to 2-6% but did not prevent CMV indirect effects. In addition, hematotoxicity can compromise post-transplant haematological reconstitution, thus preventing its use as prophylaxis in France. Foscarnet, iv-administered and nephrotoxic, remains less used. There is thus a high expectation from less toxic molecules for prophylaxis The development letermovir recently available for prophylaxis of CMV infection in high risk patients will modify the patients care and follow-up. This new molecule targeting CMV terminases (developed by Merck) was recently marketed in France (Jan 2020). However, the analysis of the letermovir phase III study and further publications show that the risk of emergence of resistance is low, but may occur in case of breakthrough and thus post AMM monitoring is required. A "real-life" evaluation of these new molecules in terms of efficacy, emergence of resistance, tolerance and morbimortality related to CMV infection, is useful, to propose recommendations on management strategies, in particular for the most at-risk patients i.e. CMV-seropositive recipients. To this purpose, the National Reference Center in collaboration with the French Society for marrow graft and cell therapy (SFGMTC) set up a cohort of surveillance of allografted patients, receiving, in prevention or treatment, old and new molecules.
Casting Light on HOst-cytomegaloviRUs Interaction in Solid Organ Transplantation
Cytomegalovirus InfectionsSolid Organ TransplantationCMV disease remains the most frequent infectious complication post-transplant and it is associated to high morbidity and even mortality. Global efforts from both transplant physicians and researchers in the field is needed to better characterize the host-virus interactions in the transplant setting, with the aim of decreasing the burden of disease and improve the well-being of patients. "HORUS" (Casting light on HOst-cytomegaloviRUs interaction in Solid organ transplantation) study is a European research project, funded by the European Commission (Horizon Europe) involving 16 partners in seven European countries (France, Spain, Czech Republic, Belgium, Switzerland, Germany and Italy) aiming to better characterize the host-CMV interactions in SOT recipients. The first aim of HORUS study will be to build a European cohort of SOT recipients including clinical characterization and the constitution of a biocollection, which is the aim of HORUS cohort, in order to perform biological, immunological, gene expression, viral kinetics and deep viral genome characterization in the global European HORUS project to improve our understanding of the development of a CMV immune response in the context of immunosuppression.