View clinical trials related to HIV Infections.
Filter by:The purpose of this study is to see if there are any changes in sugar and fat levels in the blood when patients take anti-HIV therapy for many years. Another goal is to test memory and mental concentrations to determine if anti-HIV drugs protect the brain from damage caused by HIV. (The purpose of this study has been changed from the original version.) HIV-infected patients with low CD4 cell counts are at risk for getting opportunistic (AIDS-related) infections. CD4 cells are cells of the immune system that help fight infection. Anti-HIV therapy may increase CD4 counts, which may lead to a decrease in AIDS-related infections. Problems that anti-HIV therapy is associated with include metabolic problems, neurologic problems, abnormal opportunistic infections, and cancer. Patients in ACTG 362 have been exposed to anti-HIV therapy longer than any other large group in the ACTG. These patients appear to benefit from their therapy, but also suffer problems from it. Observation of these patients should provide more information about long-term anti-HIV treatment and may detect unexpected problems. (This study as been changed. More information about the reasons for conducting this study has been added.)
To compare the proportion of patients in the 2 zidovudine (ZDV)-containing arms who have a plasma HIV RNA concentration below the limit of detection (defined as 500 copies/ml or less) at Weeks 20 and 24 [AS PER AMENDMENT 8/24/98: HIV RNA concentration below the limit of detection is now defined as 200 copies/ml or less]. To compare the safety and tolerability of the different treatment regimens. To compare the decrease in plasma HIV-1 RNA and the change in CD4 count from baseline to the average of Weeks 20 and 24 [AS PER AMENDMENT 12/19/97: and to the average of Weeks 44 and 48; AS PER AMENDMENT 8/24/98: and the average of Weeks 88 and 96] in the 2 ZDV-containing arms. To study the emergence of resistance to ZDV, lamivudine (3TC), stavudine (d4T), delavirdine (DLV), and indinavir (IDV) in treated patients. To correlate the antiviral and immunologic activity and emergence of drug resistance with pharmacologic parameters of study drugs. To delineate the pharmacokinetic interactions of IDV and DLV. [AS PER AMENDMENT 12/19/97: To delineate the possible development of cellular resistance to nucleoside analogs and the consequences of switching nucleoside study drugs on intracellular phosphorylation.] To document rates and patterns of adherence over the course of the study, from day of randomization through 48 weeks. [AS PER AMENDMENT 8/24/98: To define long-term durability of the virologic activity of the different treatment regimens, as defined by the proportion of patients with plasma HIV-1 RNA levels that remains below the limit of detection. To define long-term tolerability of the different treatment regimens.] Although a change in reverse transcriptase (RT) inhibitors is recommended when adding or changing protease inhibitors in a treatment regimen, the choice of available RT inhibitors is often limited by prior exposure, toxicity, or pharmacologic interaction with the protease inhibitors. This study addresses the question of whether to continue 3TC or substitute the nonnucleoside reverse transcriptase inhibitor (NNRTI) DLV when adding IDV to therapy for patients previously treated with ddI or d4T plus 3TC who have greater than 500 copies/ml of plasma HIV-1 RNA. Although the activity of DLV as monotherapy or in combination with nucleoside reverse transcriptase inhibitors is of limited duration due to rapid emergence of resistance, it is possible that DLV will contribute significantly to the activity of 3-drug regimens that include a new RT inhibitor plus a protease inhibitor.
Part A: To determine the safety and pharmacokinetics of sequential single doses of cidofovir in HIV-infected children with end-organ cytomegalovirus (CMV) disease. Part B: To determine the safety (including time to progression of CMV retinitis by retinal exam), pharmacokinetics, and long-term (6 months) tolerance of multiple-dose cidofovir in HIV-infected children with CMV retinitis. Part B: To determine the effect of multiple-dose cidofovir on the virologic parameters of CMV retinitis (viral load, shedding, and resistance to antiviral agents). [AS PER AMENDMENT 1/7/98: To determine the safety, tolerance and pharmacokinetics of sequential single doses of cidofovir in HIV-infected children with CMV retinitis. To determine the safety (including time to progression of CMV retinitis by retinal exam), pharmacokinetics, and long-term (6-month) tolerance of multiple doses of cidofovir in HIV-infected children with CMV retinitis.] While the intravenous formulation of cidofovir has been approved for the treatment of CMV retinitis in HIV-infected individuals, information is limited regarding its safety and tolerance in HIV-infected children. Intravenous cidofovir requires less frequent administration for both induction and maintenance therapy of CMV retinitis than other currently available therapies. If found to be safe and well tolerated in HIV-infected children with CMV retinitis, intravenous cidofovir would add significantly to agents available to treat this debilitating opportunistic infection.
The purpose of this study is to determine the safety and effectiveness of low doses of cyclosporine (CsA) in patients with early HIV infection and to evaluate its effect on the immune system. Activation of T cells (cells of the immune system) leads to HIV replication. Inhibition of immune activation is therefore a potentially important area of therapy for patients with early HIV infection. CsA is capable of decreasing T cell activation, which in turn may decrease HIV replication.
The purpose of this study is to see if giving the ALVAC vCP1452 anti-HIV vaccine alone or with another vaccine called AIDSVAX B/B to babies of HIV-positive mothers is safe. The study will also look at how these vaccines affect a baby's immune system. Most HIV-positive children get HIV from their mothers during pregnancy or birth. Treatment with anti-HIV drugs can reduce the baby's risk of getting HIV. Vaccines also may help prevent HIV infection. This study will look at whether the ALVAC vCP1452 vaccine and the AIDSVAX B/B vaccine can help the body fight off HIV infection. There is no chance of getting HIV infection from the vaccines. (This study has been changed. In earlier versions, ALVAC vCP205 and AIDSVAX B/E were going to be used.)
The purpose of this study is to evaluate the safety and tolerance of 2 anti-HIV drugs, d4T and 3TC, given in combination to HIV-positive pregnant women and their infants. Most HIV-positive pregnant women usually take the anti-HIV drug zidovudine (ZDV) to treat HIV and reduce the chances of giving HIV to their babies. It recently has been shown that a combination of drugs may be more effective than ZDV alone. This study tests the effectiveness of combinations of ZDV, d4T, and 3TC.
The purpose of this study is to evaluate the safety of giving indinavir and rifabutin at the same time (simultaneously) vs 4 hours apart (staggered) to HIV-positive and HIV-negative adults. It is important to determine which medications for HIV-associated diseases, such as Mycobacterium avium complex (MAC) disease, can be given safely and effectively with anti-HIV drugs. Indinavir and rifabutin have been given simultaneously in the past with good results. This study seeks to examine if staggering the doses will make the 2 drugs more effective. HIV-negative volunteers are used in this study to examine the effect of rifabutin on indinavir and the effect of staggered rifabutin doses. The effect of rifabutin on the drug activity of indinavir is evaluated in HIV-positive patients.
CD4-IgG2 is a special man-made protein that was built to block the entrance of HIV into CD4 cells (cells of the immune system that fight infection). The purpose of this study is to see if giving CD4-IgG2 to HIV-infected children is safe and effective. HIV attaches to CD4 cells and enters them. Inside, HIV makes copies of itself that will help the virus invade the body. CD4 cells are killed or disabled during this process of HIV replication. Decreases in CD4 cells lead to a weakened immune system. When CD4 cell counts become very low, the body is unable to defend itself, and HIV infection develops into AIDS. The protein used in this study, CD4-IgG2, may be able to attach to HIV and inactivate it so that it cannot enter CD4 cells. This is an early study to examine CD4-IgG2 as a possible treatment for HIV in children.
To evaluate the safety of anti-HIV CTL therapy in early stage patients and to verify the safety when combined with antiviral therapy with zidovudine/lamivudine/indinavir and low-dose interleukin-2 (IL-2). To compare the effects on plasma and cell-associated viral load following combination drug therapy with and without antiviral CTL in early-stage patients. To study in detail the immune effects of lowering viral burden with antiviral combination drugs with and without T cell infusion on antiviral CTL activity, viral suppression and proliferation, circulating T cell phenotype, T cell apoptosis, CD4 cell numbers, DTH reaction, and inflammatory cytokine levels. In an HIV-infected person, there is an ongoing struggle between HIV replication and host immune control. In the past decade most therapeutic strategies have targeted the virus. This approach has been frustrated by viral mutation to evade drug sensitivity. Promising drugs have recently been approved and there are encouraging sustained results from combination antiviral chemotherapy. However, even the most potent drug regimens do not seem to be curative, may eventually lead to drug resistance and may not completely restore lost immune function. The addition of immune-based therapy to antiviral drugs may lead to better viral control.
To determine the short-term virologic and immunologic effects of using plasma genotypic antiretroviral resistance testing (GART) results (interpreted by study virologists AS PER AMENDMENT 9/17/97) in the management of therapy for antiretroviral-experienced patients failing on one of the following regimens: 1. zidovudine (ZDV) + (lamivudine) 3TC + (indinavir) IDV 2. ZDV + 3TC + saquinavir (SQV) 3. ZDV + 3TC + ritonavir (RTV) 4. stavudine (d4T) + 3TC + IDV. [AS PER AMENDMENT 11/26/97: To determine the short-term effects of using plasma GART in the management of antiretroviral-experienced patients failing on a triple drug regimen that includes a single protease inhibitor (indinavir [IDV], saquinavir [SQV], ritonavir [RTV], or nelfinavir [NFV]) and two licensed nucleoside reverse transcriptase inhibitors (NRTIs).] A growing body of evidence suggests that antiretroviral resistance is associated with an increased risk of disease progression and death. All commercially available antiretrovirals and many of those in development have been associated with resistance. Fortunately, techniques are available to define HIV genotypic resistance in "real time" as compared to techniques that measure phenotypic resistance that is not practical in a clinical setting. Using genotypic antiretroviral resistance testing (GART) results, along with other currently available markers, may lead to improved treatment decisions compared with using currently available markers alone.