View clinical trials related to HIV Infections.
Filter by:This single arm study will assess the pharmacokinetics, safety and activity of saquinavir (Invirase hard gel capsules, film coated tablets or opened capsules) boosted by combination with ritonavir, in HIV-1 infected infants and children between the ages of 4 months and 6 years. Patients will commence treatment with saquinavir 50mg/kg bid plus ritonavir 2.5mg/kg or 3.0mg/kg (dependent on body weight), and a background antiretroviral regimen. If drug exposures are found to be dissimilar to those previously seen in older children and adults, or are associated with toxicities, subsequent dose adjustments will be made. The anticipated time on study treatment is 3-12 months, and the target sample size is <100 individuals.
Monocentric study to assess the safety and immunogenicity of the recombinant MVA-HIV multiantigen vaccine MVA-mBN120B in HIV-infected subjects. 15 subjects will receive immunizations at day 0, after 4 and 12 weeks at a dose of 2E8 TCID50 MVA-mBN120B. The vaccine will be administered subcutaneously.
This study is aimed at demonstrating whether or not Male Circumcision can be used as an effective public health prevention tool that will have an impact on HIV prevalence in the South African population.
Purpose: To study the immune response of the newly licensed pneumococcal conjugate vaccine (PCV) in comparison to the pneumococcal polysaccharide vaccine (PPV) to determine if a significantly better immunologic response to boosting can be elicited in patients previously vaccinated with PPV.
The objective of this study is to determine the long term safety and tolerability of an additional infusion of 10 billion VRX496 gene-modified CD4 T cells with a focus on evaluating additional therapeutic benefits with respect to viral load and CD4 counts.
Compare the Pharmacokinetics of ritonavir and saquinavir(using either Saquinavir /Ritonavir 1500/100 mg or 1500/50 mg) Evaluate short term tolerability, safety and toxicity Evaluate if there is any relation between RTV concentration levels and boosting effect
The previous two studies of generic GPO saquinavir failed to prove bioequivalence. In this study the bio-equivalence will be investigated in healthy Thai volunteers, to see whether the generic GPO saquinavir shows bioequivalence when boosted with Norvir®. If the generic formulation is bioequivalent subsequent studies may follow in HIV-1 positive patients.
To determine the pharmacokinetic profile of generic lopinavir/ritonavir tablets To investigate the possible influence of pregnancy and duration of pregnancy To determine the antiviral activity and safety of generic lopinavir/ritonavir® Compare pharmacokinetics parameters before and after pregnancy.
There are increasing numbers of HIV-infected patients in sub-Saharan Africa receiving antiretroviral drugs and/or rifampicin based antituberculous therapy. HIV infected patients are at an increased risk of contracting malaria. Increasing resistance to anti-malarials such as chloroquine, amodiaquine, fansidar, sulphadoxine-pyrimethamine in East and West Africa has led the WHO to recommend artemether-lumefantrine (Coartem®- Novartis) as first line therapy for malaria for adults and children. As early as 2004, fourteen countries in sub-Saharan Africa had adopted this guideline as national policy. There are no data on the interaction between Coartem® and any of the antiretroviral agents. Both components of Coartem® are substrates for the 3A4 isoform of cytochrome P450. Despite the lack of data, antiretroviral drugs and/or antituberculous drugs in addition to Coartem® are of necessity co-prescribed daily in the African setting. Nevirapine, efavirenz and rifampicin are known inducers of cytochrome P450 3A4. A technical consultation convened by WHO in June, 2004 concluded that additional research on interactions between antiretroviral and antimalarial drugs is urgently needed. We propose to perform a suite of pharmacokinetic studies to evaluate these interactions in HIV infected Ugandan patients. The aim of these studies is to evaluate the pharmacokinetic interaction between Coartem® and commonly co-prescribed inducers of 3A4 i.e. nevirapine, efavirenz and rifampicin. 1. Comparison of steady state pharmacokinetics of Coartem® in HIV-infected patients prior to commencement of nevirapine and at nevirapine steady state 2. Comparison of steady state pharmacokinetics of Coartem® in HIV-infected patients prior to commencement of efavirenz and at efavirenz steady state 3. Comparison of steady state pharmacokinetics of Coartem® in Ugandan patients at rifampicin steady state and without rifampicin
With the roll out of antiretroviral therapy (ARV) for HIV across sub-Saharan Africa an unprecedented number of people will be commencing lifelong therapy. Current estimates are that 5-6 million people in sub-Saharan Africa require ART. At the same time, the World Health Organization (WHO) Roll Back Malaria campaign is aggressively promoting the use of artemether/lumefantrine as first-line therapy for malaria in this setting. Many patients in this setting have already become resistant to first-line ARV and have moved onto lopinavir/ritonavir (Kaletra) based second-line regimens. Kaletra is a potent inhibitor of Cytochrome P450 3A4 (CYP 3A4), an enzyme responsible for the metabolism of many drugs which is found predominantly in the liver and the gut. Lumefantrine, and to a lesser extent artemether, is extensively metabolized by CYP 3A4. Therefore when given to a patient already taking Kaletra for HIV, it is likely that elevated levels of these drugs in the patient will result. There is some concern that lumefantrine may be cardiotoxic due to its structural similarity to halofantrine which is known to cause irregular heart rhythms. This has not been borne out as yet in any studies performed with lumefantrine, however it is not known what levels will be achieved in patients when it is administered with a protease inhibitor such as Kaletra. The WHO has not addressed this issue in any of its previous policy documents but has identified ARV-antimalarial drug interaction studies as a research priority. This single dose pharmacokinetic (PK) study aims to compare the levels of lumefantrine/artemether that result when it is given to a patient on Kaletra with patients not on any ARV. Data generated by this study will help address this important knowledge gap which has been identified by WHO and others as meriting urgent investigation.