View clinical trials related to HIV Infections.
Filter by:This study has been designed to evaluate the performance of the Chembio Diagnostics Systems, Inc. DPP® HIV 1/2 rapid test. The device is intended to qualitatively detect the presence of antibodies against HIV-1/2 in oral fluid, whole blood (capillary and venous), serum or plasma. This study will assess the DPP® HIV 1/2 Screen assay's ability to detect HIV-1.
This is a phase III, randomized, controlled, open label study with two vaccine regimens. The study will assess the relative safety and immunogenicity of vaccine regimens comparing adjuvanted versus non-adjuvanted formulations of A(H1N1) inactivated influenza virus vaccine in subjects with Human Immunodeficiency Virus Type 1 (HIV-1) Infection and to compare safety and immunogenicity data with a contemporaneously enrolled control group of age-comparable, healthy subjects. Because certain individuals may be hypo-responsive to influenza vaccination, additional studies with high-risk groups are warranted in order to determine the optimal vaccine formulation and dosing schedule for prevention of novel H1N1 virus infection.
The purpose of this study is to examine the safety, local tolerability and pharmacokinetics (how drugs are absorbed in the body, how they are distributed within the body and how they are removed from the body over time) of a single intramuscular injection (injected directly in the muscle) of 300 mg (Panel 1) or 600 mg (Panel 2) of a new long acting form of TMC278. In Panel 3, the safety, local tolerability and pharmacokinetics are being studied after three successive intramuscular injections (single injection on Day1, single injection on Day15 and single injection on Day43) of a selected dose of the same TMC278 LA formulation. The dose of Panel 3 will be determined based on the safety, local tolerability and the pharmacokinetic results obtained in Panel 1 and 2.
This is a single-center, randomized, two part, open-label, crossover study in healthy adult subjects to assess the effect of up to three formulations on the relative bioavailability of GSK2248761 100mg administered with and without food. Part A will evaluate two new formulations compared to the current formulation. Part B will evaluate one additional formulation if the bioavailability of the two formulations in Part A do not meet pre-specified criteria. Safety evaluations and serial PK samples will be collected during each treatment period. A follow-up visit will occur 7-10 days after the last dose of study drug.
Infection with human papillomavirus (HPV) has been clearly established as the central cause of cervical cancer. This Phase IV, observer-blind study is designed to evaluate the safety and immunogenicity of Cervarix in HIV infected females aged 15 to 25 years as compared to Merck's HPV vaccine (Gardasil). For comparative purposes, a group of HIV negative females will also be evaluated. All subjects will receive the HPV vaccine (either Cervarix or Gardasil) according to a three-dose schedule (Day 0, Week 6, Month 6).
The present study is designed as a prospective observational study directed at evaluating the frequency, magnitude, quality and persistence (primary endpoint) of the anti-Tat immune response in HIV-1 infected asymptomatic individuals, and to prospectively evaluate the immunological, virological and clinical outcome of anti-Tat positive versus anti-Tat negative drug naŃ—ve subjects (secondary endpoint) in order to determine the impact of anti-Tat immunity on HIV disease progression as well as the potential use of anti-Tat immune response assessment for the clinical and therapeutic management of infected patients. This survey provided important information for the design, planning and conduction of future therapeutic vaccine trials based on the HIV-1 Tat protein in asymptomatic subjects.
Oral human papillomavirus (HPV) and oral warts are common health concerns for HIV-infected people. This study will examine the frequency of oral HPV DNA shedding and oral warts in HIV-infected people who are enrolled in ACTG A5257 and who are beginning treatment with highly active antiretroviral therapy (HAART).
The investigators hypothesize that the concentration-time profile of raltegravir is different in cells than that in plasma. Intracellular raltegravir concentrations may be higher and its half-life longer than in plasma. This may explain the efficacy of raltegravir despite variable plasma concentrations.
Although highly active antiretroviral therapy (HAART) decreases HIV-associated mortality, it does not to completely restore health. Patients doing well on otherwise effective HAART remain at risk for cancer, cardiovascular/liver disease, osteopenia, and other "non-AIDS-defining" events. While complete eradication may never be feasible, a "functional cure" in which patients are able to maintain undetectable viral loads indefinitely without therapy may be possible. The best evidence for this are the so-called "elite" controllers, whom we define as individuals who are HIV-seropositive, with plasma HIV RNA levels below the level of conventional detection without treatment. Controllers may be conceptualized as a naturally occurring model of a functional cure (or "HIV remission"), and are ideal patients in which to study HIV persistence and the possibility of eradication. We propose to conduct a pilot study to better characterize the reservoirs that lead to viral persistence in a group of well-characterized controllers. We propose two specific aims: 1) to characterize the dynamics of viral production in blood and gut-associated lymphoid tissue (GALT) in controllers; and 2) to prospectively treat 10 controllers with raltegravir, tenofovir/emtricitabine for 24 weeks and study the effects of HAART on viral dynamics and host inflammatory responses. Our primary hypotheses are: 1) viral replication is ongoing in untreated controllers, 2) HAART will reduce viral replication in blood and GALT and decrease immune activation, and 3) higher levels of immune activation are associated with greater measures of microbial translocation and distribution of virus to more differentiated T cell subsets.
This study is being done to better understand why people with HIV who have taken drugs for HIV begin to show abnormal changes in fat loss or fat gain in their bodies. This condition is called lipodystrophy. Patients who take medicine for HIV and who have lipodystrophy report loss of subcutaneous (sc) fat from the arms, legs, and face and excess fat gain in the neck and truncal region. They also more likely to have problems with insulin in the body, high fat levels in the blood and diabetes. The reason that lipodystrophy develops is not fully understood although some HIV drugs have are very likely the cause. The complications pose an increased risk of fat blockage forming in the arteries making you more at risk for heart problems in the future. Changes in body fat can cause physical discomfort and psychological distress. Management of these problems can be a challenge for the patient's doctor. The investigators propose data collection to determine if there is more than one reason why this might happen in some people and not in others. Laboratory samples being collected: 1) special imaging of the liver; 2) fat collected by needle from the mid thigh and mid-shoulder areas; 3) blood samples to measure the virus, t-cells, fats, and other markers of how the patient's body is handling the virus. This study is being done because science does not fully understand why some patients with HIV who take medicines for the virus have abnormal fat loss or gain and some do not. This research study is intended to help us better understand why and how this happens.