View clinical trials related to HIV Infections.
Filter by:The lining of the gastrointestinal tract contains specialized lymphoid tissue that is part of the immune system. Like other parts of the immune system, HIV attacks this lymphoid tissue. This study will evaluate the effect of an anti-inflammatory drug on the lymphoid tissue in the gastrointestinal tracts of people with HIV.
This study will test the safety of and immune system response to a new HIV vaccine. The vaccine in this study is made from HIV DNA produced in a laboratory. Only part of the virus's DNA is used in the vaccine and the vaccine itself cannot cause HIV infection or AIDS. In addition to HIV DNA, the vaccine contains interleukin-2 (IL-2) DNA fused to a portion of immunoglobulin (Ig) DNA. IL-2 is a chemical that stimulates the immune system and may improve response to the vaccine. Study hypothesis: The IL-2/Ig plasmid will be very well tolerated in humans.
The purpose of this study is to assess the prevalence of metabolic and physical abnormalities in HIV infected (via mother-to-child transmission) and uninfected children and youth. Metabolism, body composition, bone density, and other factors will be assessed in relationship to participants' exposure to highly active antiretroviral therapy (HAART).
This study will evaluate a test designed to measure immune system responses to HIV and HIV vaccines.
This study will determine if taking anti-HIV drugs 4 days a week will control HIV-1 viral replication in patients who have already had at least 6 months of documented viral suppression with full-time treatment. If this strategy is shown to be safe in this study, a larger study will be undertaken to determine if the strategy can decrease overall drug exposure and help young people adjust more easily to a chronic medication schedule.
Some people's immune systems are able to control HIV infection without anti-HIV drugs. Other people with HIV must take drugs to prevent the virus from destroying their immune systems. There are many different laboratory tests that measure immune function in people with HIV. This study will compare some of these tests to see if they consistently measure differences between people who control the HIV without anti-HIV drugs and those who must take drugs.
The purpose of this clinical research study is to learn if atazanavir is associated with serum LDL cholesterol in HIV-infected subjects following a substitution of atazanavir for their previously administered protease inhibitor.
The specific objective of this study are to examine whether or not a treatment aimed at emotional disclosure may have beneficial psychological, health and immune effects for HIV infected individuals. The goal of the current study is to test the efficacy of emotional disclosure through writing in patients with HIV infection. We will compare emotional disclosure through writing about traumatic experiences (experimental intervention) to a control intervention (writing about emotionally neutral topics). [Note that HIV RNA viral load, CD4 T cells, urinary cortisol, health related dysfunction, psychological distress, and medication adherence are the 6 primary outcome variables.
Though anti-HIV drugs can dramatically improve the health of people with HIV, some people taking these drugs develop serious long term effects in their metabolism. These effects include problems with bones, increased levels of blood sugar and lipids, and changes in body fat distribution. The purpose of this study is to see how many young women are experiencing these problems and how severe the problems are. This kind of study is the first step in determining how best to treat these problems.
HIV is found in both the blood and the genital tract. This study will compare the levels and types of HIV found in the blood with the levels and types of HIV found in the female genital tract. Study hypotheses: 1) In the presence of antiretroviral therapy, viral replication within the female genital tract may lead to the development of drug resistance that is different from that of virus in the blood plasma. 2) Antiretroviral drug levels in the female genital tract may often be lower than in the blood plasma and differences in drug exposure may be associated with differences in virus replication and selection of resistant HIV variants during drug failure. 3) HIV can be recovered in vitro from cells in the female genital tract during successful therapy, and it may be genetically different from the HIV variants recovered from the blood cell latent reservoir on the same visit.