View clinical trials related to HIV Infections.
Filter by:A 48-week study to investigate the safety and effectiveness of a new compact formulation of two already FDA-approved anti-HIV drugs in subjects who have already been receiving treatment for their HIV infection.
The purpose of this study is to compare the safety, tolerability and antiviral activity between once-daily (QD) and twice-daily (BID) dosing of lopinavir/ritonavir and to further characterize the pharmacokinetics of once-daily dosing of lopinavir/ritonavir.
The objectives of this study are to explore the metabolic toxicities associated with lopinavir/ritonavir (LPV/r) plus saquinavir mesylate (INV) versus LPV/r plus Combivir in antiretroviral naïve subjects and to assess the overall safety, tolerability and efficacy of LPV/r plus INV versus LPV/r plus Combivir in antiretroviral naïve subjects and to assess the pharmacokinetics of 400 mg INV taken twice a day (BID), 600 mg INV BID and 800 mg INV BID in combination with 400 mg lopinavir/100 mg ritonavir plus 150 mg lamivudine/300 mg zidovudine BID.
Antiretroviral Therapy (ART) naive subjects will be enrolled in this clinical research study to test the safety and tolerability of fosamprenavir with or without ritonavir in combination TRIZIVIR and COMBIVIR. Subjects will receive 24 weeks of therapy.
This study will investigate low-level viral loads in HIV-infected patients taking highly active antiretroviral therapy (HAART). Although HAART reduces viral levels and restores immune function to some degree, it does not cure HIV infection. The virus persists even at levels below that which it can be detected. This study will examine where this residual virus comes from in order to better understand the infection and the effectiveness of therapies. In addition, the study will 1) evaluate the ability of a new test to detect the virus at low levels; and 2) determine whether adding the protease inhibitor Kaletra to the HAART treatment regimen for patients with a low viral load will further decrease their viral load. HIV-infected patients 18 years of age and older may be eligible for this study. Patients involved in the viral load test will be recruited from an NIAID HIV study in which they are already participating. Three groups of patients will be enrolled: those with a viral load of less than 50 copies/ml plasma, those with 51-500 copies/ml, and those with 501-5000 copies/ml. Patients involved in the Kaletra trial must have been taking HAART for 6 months or more and have less than 50 viral copies/ml plasma. They will be screened for this study with a history, physical examination, and routine laboratory tests. Participants in the viral load test evaluation will donate 70 ml of blood up to four times. No more than one sample will be collected per day. Participants in the Kaletra trial will have blood samples drawn on two successive days and will then be randomly assigned to one of two treatment groups. One group will begin Kaletra therapy (four capsules two times a day) immediately; the other will undergo observation for 4 weeks before starting Kaletra. Depending on what group they are in, patients will provide blood samples for viral load measurements and clinical samples according to the following schedule: Immediate Kaletra One sample each during weeks 1, 2, and 3, of therapy and two samples during week 4. Delayed Kaletra One sample each during weeks 1, 2, and 3 of observation and two samples during week 4. After starting therapy, one sample will be collected each week during weeks 1, 2, and 3 of therapy and two samples during week 4. In both groups, after the last dose of medicine on day 28, Kaletra therapy will be complete. At the end of therapy, additional blood will be collected for viral sampling as follows: one sample each during weeks 1, 2, and 3, and two samples during week 4 after Kaletra therapy.
The purpose of this study is to see if the experimental HIV vaccine pGA2/JS2 is safe and is well tolerated at two different doses. Another important purpose of this study is to observe how the immune system responds to the vaccine at different dose levels. Vaccines are given to people to help their bodies fight infection. The vaccine being tested in this study is a DNA vaccine. The pGA2/JS2 plasmid DNA vaccine instructs the body to make some HIV proteins. These HIV proteins may trigger an immune response. Because only a few of the many proteins HIV needs are made through DNA vaccination, there is no risk of getting HIV from the vaccination. This and other similar DNA vaccines have been tested for safety in mice, rabbits, and monkeys. The vaccine has been well tolerated at doses to be used in this study.
IMPAACT P1026s is a Phase IV prospective clinical study to evaluate the pharmacokinetics (PKs) of antiretroviral (ARV) and tuberculosis (TB) medications in pregnant women and their infants. (Pharmacokinetics are the various interactions between a drug and the body.) This study also evaluated the PKs of certain ARVs in postpartum women before and after starting hormonal contraceptives. The PKs of these drugs were evaluated by measuring the amount of medicine present in blood and/or vaginal secretions.
The purpose of this study is to find out if HIV-infected pregnant women taking anti-HIV drugs have an increased amount of HIV in their blood (viral load) after having the baby. The purpose of A5153s, a substudy of A5150, is to characterize two anti-HIV drugs (nelfinavir [NFV] and lopinavir/ritonavir [LPV/r]) in HIV-infected women during pregnancy and after childbirth. Sometimes pregnant women have an increase in their HIV viral load after their baby is born. This study will try to find out how often this happens. It will also examine possible reasons why the increase in viral load occurs.
Drug resistance testing can be used to see which anti-HIV drugs are likely to suppress the growth of HIV and to select an anti-HIV regimen for HIV infected patients who have failed previous drug regimens. Therapeutic drug monitoring (TDM) is a process that involves measuring blood levels of a drug and may further increase the benefits that resistance testing offers by optimizing protease inhibitor (PI) drug concentrations. The purpose of this study is to determine whether changing the dose of PIs, as indicated by TDM, reduces the viral load in PI-experienced patients. Hypothesis: Treatment-naive study participants who undergo TDM and whose clinicians' interpret their TDM results and adjust their PI doses will have better virologic response rates and decreased toxicities (and thus better treatment outcomes) than participants who do not undergo TDM.
The purpose of this study is to evaluate Racivir. The safety, most effective dosage, and how the body reacts to Racivir will be studied.