Active clinical trials for "Viremia"

BK virus infections after kidney transplant are increasing and can result in damage to the transplanted kidney. Currently, the universally accepted treatment is to decrease the strength of the antirejection medications but it is unclear what medications should be lowered and to what extent. The investigators propose to perform a study with patients who have BK virus detected in their blood during routine screening that appears to be increasing. The investigators will use two different strategies that involve different combinations of standard anti-rejection medications at lower dosages. Patients will be assigned to one of the two groups in a random manner across the two hospitals participating in the study. Patients will be followed for at least a year to determine if one strategy was more effective than the other in preventing an increase in the number of viruses in the blood stream and whether either one was more effective in reducing the negative impact of the infection on the functioning of the transplanted kidney.

The purpose of this study is to determine whether immune globulin can limit the amount of yellow fever vaccine virus present in the blood after vaccination without compromising the immunity associated with the yellow fever vaccine. The study will enroll 80 participants in two groups of 40 each. The first group will receive the yellow fever vaccine with salt-water placebo. The second group will receive yellow fever vaccine with immune globulin. The amount of vaccine virus and immune response in both groups will be compared. Yellow fever vaccine has been used to protect humans against Yellow Fever Vaccine disease since the 1930s.

HIV infection can be effectively controlled with antiretroviral therapy (ART). However, children and adolescents living with HIV and receiving ART suffer high rates of treatment failure, predominantly caused by suboptimal adherence to therapy and/or viral drug resistance. While high-income countries routinely use genotypic resistance testing (GRT) to determine which drug combinations are likely to be effective, this diagnostic tool is relatively costly and labour-intensive and is not routinely available in most resource-limited settings. GIVE MOVE is a multi-country (Lesotho, Tanzania) randomised clinical trial assessing if rapid GRT after detecting an unsuppressed viral load improves the clinical management and thus health outcomes for children and adolescents living with HIV. Children and adolescents with an unsuppressed viral load despite ART are enrolled and randomly allocated to a control or an intervention arm (50% of participants in each arm). The control arm receives care according to the current standard of care, consisting of three sessions of enhanced adherence counselling at monthly intervals, followed by a second viral load test. Onward treatment is informed by the outcome of this viral load test alongside empirical guidelines and clinical judgement. The intervention arm receives GRT and GRT-informed onward therapy. Participants in the intervention arm also receive three sessions of enhanced adherence counselling, which is informed by GRT results (i.e., if no drug resistance is detected, there is a high chance of suboptimal adherence to ART and this can be directly addressed). This trial will assess if the rapid provision of GRT improves participants' health outcomes at 9 months after enrolment. A nested study will assess the cost and cost-effectiveness of GRT. Thus, this trial will provide evidence on whether the provision of GRT for children and adolescents with HIV should be prioritised in resource-limited settings.

This is a randomized, controlled, open-label, multicenter study to evaluate the safety, tolerability, pharmacokinetic (PK), and adenovirus (AdV) antiviral activity of multiple ascending doses of IV brincidofovir (BCV). Approximately 30 eligible subjects will be sequentially enrolled into 1 of 3 planned cohorts. Within each cohort, subjects will be randomized in a 4:1 ratio to receive IV BCV dosed twice weekly (BIW) (on Days 1, 4, 8, and 11) or to receive investigator-assigned standard of care (SoC).

To explore the antiviral effect of nucleoside analogue in late pregnancy and the safety of the antiviral drug to fetus.To establish the best therapy strategy to pregnant women with high level of HBV DNA.

Immunoprophylaxis failure of hepatitis B virus (HBV) leading to vertical transmission remains a concern and has been reported in approximately 8-15% of infants born to hepatitis B e antigen (HBeAg) positive mothers with high levels of HBV DNA. Maternal HBV DNA > 6log10 copies/mL (or >200,000 IU/mL) is the major risk for the mother-to-child transmission. Prior observational studies have shown that antiviral therapy including lamivudine or telbivudine use during late pregnancy can safely reduce the rate of vertical transmission in this special population compared to untreated patients. Tenofovir Disoproxil (TDF), a pregnancy category B medication, reduces HBV DNA and normalizes serum alanine aminotransferase (ALT) in chronic hepatitis B patients (CHB) with few adverse effects. Two aspects on tenofovir use in pregnancy will be evaluated prospectively in this study: The data on its tolerability and safety in HBeAg+ pregnant women with HBV DNA > 6log10 copies/mL (or > 200,000 IU/mL) during late pregnancy and infants. Its efficacy in the reduction of HBV vertical transmission rate.

CCR5 antagonists might be an adequate alternative for HIV-1-infected individuals with suppressed viremia who experience antiretroviral-related toxicity. The assessment of HIV-1 tropism in proviral DNA could be helpful to inform in which of these subjects CCR5 antagonists could be efficacious.

Compare the viral load of hepatitis c virus in patients converted to certican versus patients who are maintained on calcineurin inhibitor.

Scientific context Epstein-Barr virus has a causal role in the pathogenesis of multiple distinct lymphomas. Post-transplant lymphoproliferative diseases (PTLD) are the most frequent EBV-induced proliferations. PTLD after allogeneic stem cell transplantation has an incidence lower than 5% but may increase up to 10-20% in patients with established risk factors. EBV-DNAemia is predictive of EBV-PTLD and is routinely performed using qPCR on whole blood. Preemptive therapeutic strategies with anti-CD20 antibody are used when patients are above a defined EBV-DNAemia threshold. This approach remains limited since it does not discriminate between an EBV-induced lymphoproliferation (latent cycle) and/or a replicating virus (replicative cycle). Epigenetic modifications plays a central role in regulating the switch from latent to lytic gene expression. Specific DNA modifications can be regarded as molecular signatures for EBV genomes associated with the status of the viral infection (latent vs lytic). Accordingly, these signatures may be envisioned as a potent tool to characterize the state of the viral infection in vivo. Description of the project Our primary objective is to estimate the respective percentages of EBV-lytic and EBV-latent genomes (proliferating cells) in patients presenting with a high EBV-DNAemia after allogeneic stem cell transplantation HSCT by analysing the epigenetic modifications of EBV genome on specific sites. Our secondary objectives are i) to determine risk factors associated with each "latent versus lytic EBV" profiles and ii) to correlate the "latent versus lytic EBV" profiles with response to rituximab infusion and patient outcomes. For this purpose, a retrospective study (n=80) and a prospective study (estimation n=58) will be established. The different steps of this project are: To study epigenetic modifications. The laboratory is developing a new approach to distinguish between latent and lytic genomes. To realize quantitative analysis by RT-PCR of different EBV transcripts specific of the latent or of the lytic phase of the virus This method will be applied on RNA extracted from patient blood samples with elevated EBV viral load, under condition preserving RNA integrity. The results will be validated on a prospective cohort of HSCT patients (n=58) (Saint-Antoine Hospital and La Pitié-Salpêtrière Hospital). To perform quantitative analysis of EBV genomes in plasma, saliva and total blood samples by current routine procedures In addition to total blood samples, plasma and saliva will be collected since free viral particles are known to accumulate in these biological fluids upon EBV reactivation. These samples will be treated by normalized procedures that are routinely used in the medical virology laboratory to quantify EBV in human samples. Expected results By establishing a simple method for studying epigenetic modifications of EBV genomes, we expect to understand the significance of high EBV viral load and the pathophysiology of post-HSCT PTLD. We aim to distinguish between the latent / lytic profiles of HSCT patients and to correlate their respective risks for developing PTLD. Establishing the epigenetic EBV profile in the post-HSCT setting when facing increase viral load and PTLD will improve our understanding of the biological mechanisms determining EBV-status in post-HSCT. This should improve major medical and economical issues. These results could have a major therapeutic

The medicines used to treat HIV can suppress but cannot kill all the virus in the body. A small amount of virus remains at low levels in the part of the blood called the plasma. It is of crucial importance to identify the source of the residual virus in patients receiving antiretroviral therapy. The purpose of this study is to investigate whether the source of low level plasma virus is from latent (old) infection or ongoing (new) infection. MK-0518 is a investigational drug, which means that is not yet FDA approved, that works in a different way to other anti-HIV medicines to help kill the virus. We hypothesize that addition of MK-0518 to a stable anti-HIV regimen will reduce the viral load further in patients with undetectable plasma virus.