View clinical trials related to Viremia.
Filter by:The goal of this study is to learn about supporting pregnant and postpartum women living with HIV with treatment adherence. The investigators will conduct a pilot study of an intervention that includes peer counseling about viral load levels and rapid delivery of viral load results. The investigators will evaluate the feasibility of the intervention, and will assess whether it improves viral suppression 6 months following the intervention, compared to historical controls.
This is a multicenter, randomized, controlled Phase IIa study of HH-003 to evaluate the antiviral activity and safety in nucleos(t)ide analogues-treated chronic hepatitis B subjects with low-level viremia. HH-003 is a human monoclonal antibody targeting the pre-S1 domain of the HBV large envelope protein. It blocks engagement of preS1 with sodium taurocholate co-transporting polypeptide (NTCP), the cellular receptor for HBV.
Uganda uses a threshold of 1,000 copies/ml to determine HIV viral non-suppression among people living with HIV/AIDS (PLHIV) on treatment, which is indicative of either poor adherence or HIV virologic treatment failure; as per the recent WHO recommendations. The use of this high threshold of 1,000 copies/ml has resulted into an increase in the number of PLHIV having low-level viraemia (≥50 to <1,000 copies/ml) from 11.0% in 2017 to 35.0% in 2020 in Uganda. Different studies in developed countries have shown that low-level viraemia is associated with HIV drug resistance, and despite this, there is no intervention to manage and control low-level viraemia (LLV), as per the recent Uganda national HIV guidelines. With this increasing and unmanaged low-level viraemia (LLV), Uganda might never achieve the global targets of ending AIDS as epidemic by 2030, as stipulated by target 3.3 of SDG 3. This study will therefore determine the effectiveness of intensive adherence counselling on achieving a non-detectable viral load (below 50 copies/ml) in the management of LLV among PLHIV on ART in Uganda. This study will generate useful information that might guide the review of the national HIV guidelines, to control and manage LLV among PLHIV on ART; and thereby enable Uganda to achieve the global goals of SDG 3, Target 3.3 and the national targets of Vision 2040.
The study will test four behavioral intervention components to identify the combination of the four components that best supports people who inject drugs to achieve and sustain HIV viral load suppression. The study design is a 2-to-the-4 factorial experiment. The 2 represents the level of each component: 0 (receive) or 1 (don't receive). The 4 represents the number of components being tested. The four components are: 1) receiving (or not receiving) peer support services for medication-assisted treatment (MAT) uptake and persistence, 2) behavioral activation therapy for depression (BAT), 3) Life-Steps Program for medication adherence, and 4) patient navigation for HIV care. Therefore, in order to test which combination of components produce the best outcome, this factorial design randomizes people to 1 of 16 conditions. Each condition represents a possible combination of the 4 components above.
Beyond EV-B, there are clinical observations to implicate other viruses in birth defects, including CHD. Since the Rubella epidemic of 1960s', however, viruses have received little attention and certainly no comprehensive study, especially using next generation sequencing (NGS), has been undertaken in this context. The current pandemic as well as those caused by Zika, influenza, Ebola and Lassa Fever (among many) have shown pregnant women and their baby are at high risk. Therefore, an open-minded approach is warranted when considering the role of maternal viral infections in CHD. Even less is known about maternal immune response, such as antibody production, to these viruses. The investigator's goal is to answer the above gaps in knowledge. The investigators propose to do that using two different approaches; one retrospective (analysis of samples in two existing, large biorepositories) and the other prospective. The investigator's have created a multi-disciplinary team to bring together the needed expertise from individuals who have overlapping and vested interest in this project. The investigator's specific aim is to examine the diversity of the gut virome in non-pregnant and pregnant women with and without diabetes, with special emphasis on known cardiotropic viruses (those with tropism for cardiac tissues). This study is seen by the investigator's as the first step prior to a larger prospective multi-institutional study to specifically assess the linkage between the maternal virome and CHD pathogenesis.
This phase II trial studies how well multi-peptide CMV-modified vaccinia Ankara (CMV-MVA Triplex) vaccination of stem cell donors works in preventing cytomegalovirus (CMV) viremia in participants with blood cancer undergoing donor stem cell transplant. Giving a vaccine to the donors may boost the recipient's immunity to this virus and reduce the chance of CMV disease after transplant.
Background: The Human Immunodeficiency Virus (HIV) attacks the immune system. Scientists have created a gene that could be transferred to the cells of people with HIV. The gene should tell the cells to make an antibody called VRC07. This antibody fights HIV. The VRC07 gene is packaged into a man-made version of a virus called AAV8. Objectives: To see if AAV8-VRC07 is safe. To study if it causes cells to produce the VRC07 antibody. Eligibility: Adults ages 18-65 who are HIV infected but in general good health and have been taking the same HIV medicine for at least 3 months Design: Participants were screened in a different protocol. Participants received the study product on day 1. It was injected one or more times in the upper arm or thigh using a needle. Participants weight was measured to calculate the dose. Women may have had a pregnancy test. For 7 days after getting the study product, participants checked their temperature with a thermometer. They noted any symptoms in an electronic or paper diary. Participants will have study visits. At each one, they will have a physical exam and medical history. They will have blood drawn and may have saliva collected. The study visit schedule is as follows: For 12 weeks: 1 visit a week For the next 12 weeks: 1 visit every other week Then about 1 visit a month After 1 year in the study: a visit every 6 months for the next 4 years. Total study participation is 5 years.
BK virus nephropathy (BKVN), a consequence of the strong immunosuppressive therapy given after kidney transplantation, represents a growing problem in the kidney transplant (KT) setting. In recent cohorts, BKVN concerns up to 10% of kidney transplant recipients and early signs of BK virus (BKV) infection as development of asymptomatic viruria and viremia are even much more frequent (40% and 20% of patients, respectively). In this context, finding strategies to prevent BKV infection or treat patients before the occurrence of BKV nephropathy is challenging. For several years, detection of BKV replication by real-time PCR in urine and/or blood of kidney transplant recipients at early stages of infection allowed adaptation of their therapy. As BKV reactivates essentially in patients with over-immunosuppression, the first step of the treatment is the reduction of immunosuppression. However, reducing immunosuppression (IS) can lead to acute rejection and allograft loss. Other treatments have been proposed (cidofovir, quinolones) but their toxicity profile or their lack of clinical efficacy are now demonstrated. Hence, an efficient and safe strategy against uncontrolled BKV replication is urgently needed. MTor-inhibitors are well known immunosuppressive drugs used in organ transplantation to prevent graft-rejection. They have furthermore anti-viral effects that can be beneficial for prevention of viral infections after transplantation. Recent evidence that inhibition of mTor pathway had an impact on BK infected cells provides additional insight into the observed benefits associated with these drugs. The aim of our study is to evaluate the effect of the mTor inhibitor everolimus on the prevention of severe BKV infection (BKV nephropathy or loss of the allograft) after kidney transplantation compared to the reduction of immunosuppression alone in kidney recipients with BK viremia.
Retrospective analysis of HIV-1 positive patients treated with antiretroviral therapy in Essen (Germany) from 2004 on. Stored samples from selected patients (n=50) obtained for routine diagnostics will be used to analyze the gag gene, the V3-region of the env gene and immune cells.
The purpose of the study is to look at possible reasons why some HIV positive people who take their drugs properly and have no resistance to these drugs, still have low amounts of virus detectable in their blood. This is known as Low Level Viraemia (LLV). When low levels of HIV virus are present, some can mutate and make the drugs less effective (i.e. some variants of the virus become more resistant). Currently, however, these resistance mutations may be difficult to detect using standard tests for resistance because the amount of virus in the blood is very low and the standard tests aren't sensitive enough to pick up the mutations. The investigators will use more sensitive mutation detection methods, known as Next Generation Sequencing (NGS), to look at whether see if there are any low levels of drug resistant HIV virus developing in the blood when LLV occurs. The investigators will look at the different treatment strategies that are used in routine standard practice when LLV is detected and evaluate which is most effective in preventing development of resistance. The investigators hope this research will help to inform guidelines on the best way to treat HIV in the future.