Active clinical trials for "HIV Infections"

PRIMARY: In Phase I, to define a broadly tolerable dose of isotretinoin that can be used in combination with interferon alfa-2a (IFN alfa-2a). In Phase II, to determine trends in efficacy of isotretinoin alone or in combination with IFN alfa-2a as chemoprevention (preventing progression or recurrence) of anal intraepithelial neoplasia ( AIN ) / squamous intraepithelial lesions ( SIL ) in patients with HIV infection. SECONDARY: To evaluate the effects of isotretinoin alone or in combination with IFN alfa-2a on immune function markers, human papillomavirus (HPV) type, and HPV DNA levels. Patients with HIV infection have a significant risk of recurrence following local ablation of intraepithelial neoplasia; thus, anogenital epithelial may become an increasingly important cause of morbidity, and possibly mortality, as the HIV epidemic matures. Clinical studies of non-HIV-infected subjects have established that synthetic retinoids inhibit the progression of epithelial preneoplastic conditions and some neoplastic states.

To determine the safety and anti-HIV activity of delavirdine mesylate ( U-90152 ) in combination with zidovudine ( AZT ) and/or didanosine ( ddI ) versus AZT/ddI combination. U-90152 has demonstrated anti-HIV activity. Since the combination of this drug with either AZT or ddI has synergistic inhibitory activity against HIV-1 in vitro, and triple therapy appears to have greater inhibitory activity against HIV-1 in vitro than dual therapy, the use of U-90152 in combination with AZT and/or ddI may improve the benefits of these drugs in persons with HIV disease.

PRIMARY: To evaluate the safety, tolerability, pharmacokinetics, and ethanol exposure of two dose regimens and formulations of SC-52151. SECONDARY: To evaluate the preliminary anti-HIV activity of these treatment regimens and the relationship between day 14 plasma concentrations of SC-52151 and immunological and virological markers and toxicity. Since viral isolates with decreased susceptibility to the protease inhibitor SC-52151 occur in vitro after multiple passages, and since prolonged post infectious effects occur in vitro, comparison of two formulations, an elixir and a self-emulsifying drug delivery system (SEDDS), is needed to determine the appropriate dose formulation for Phase II studies.

Because people infected with HIV strains that are resistant to anti-HIV drugs have fewer effective treatment options, selecting an effective anti-HIV drug combination is difficult. A combination of protease inhibitors (PIs), when added to a patient's current anti-HIV therapy, may decrease viral load and increase drug activity. Tests that measure drug levels in the blood and tests to evaluate the drug resistance of HIV may also be helpful in choosing the best anti-HIV drug combination for a patient. This study will determine whether using these tests to choose a drug combination and adding PIs to that combination will improve the patient's response to anti-HIV therapy.

The purpose of this study is to measure blood levels of abacavir in children and adolescents over a period of time following a single dose so that a dosage for adolescents can be determined. Little is known about how abacavir is cleared by the body in adolescents. It has been shown that young children require a higher abacavir dose based on weight than adults. Older children, or adolescents, may not require as high a dose. This study may provide information as to whether the children's dose or the adult dose is better for HIV-infected adolescents.

Interleukin-2 (IL-2) helps the body make infection-fighting white blood cells, including CD4 and CD8 T cells. One HIV treatment strategy is planned treatment interruption (stopping anti-HIV drugs when CD4 count and level of virus in the blood are at certain levels). The purpose of this study is to see if IL-2 used with potent anti-HIV drugs allows for longer HIV treatment interruptions.

Little is known about what treatment combinations are best for HIV infected children. This study examined the long-term effectiveness of different anti-HIV drug combinations in children and strategies for switching treatment if the first treatment does not work. The study enrolled children who had not previously taken anti-HIV medication. Participants in this study were recruited in the United States, South America and Europe. Some European children may also enroll in a substudy that will observe changes in body fat in children taking anti-HIV medications.

The purpose of this study is to evaluate DPC 817. The safety, dosages, and how the body responds to the drug will be studied.

This study will continue to treat and collect safety and efficacy data on patients who participated in Glaxo-Wellcome's multi-center study on combination therapy with abacavir, amprenavir and efavirenz (A Phase II Study Evaluating the Safety and Antiviral Activity of Combination Therapy with 1592U89, 141W94 and DMP 266 (Sustiva) in HIV-1 Infected Subjects with Detectable [greater than 400 Copies/mL] HIV-1 Plasma RNA Despite Treatment with a Protease Inhibitor-Containing Regimen). HIV-infected patients 18 years of age and older who participated in the above study at the NIH site may be eligible for the current study. Participants will be followed every 3 months with a general health evaluation and laboratory tests. This is a NIH study, and information will not be provided to Glaxo Wellcome

Disseminated infection with Mycobacteria avium complex (MAC) is one of the most common systemic bacterial infections in advanced stages of the acquired immunodeficiency syndrome (AIDS). Current therapy for disseminated MAC infection in HIV patients consists of multidrug chemotherapy regimens are often accompanied by toxicities, and many patients become intolerant of one or more agents. Macrolides are the essential component of successful therapy, yet macrolide resistant strains are being recognized with increasing frequency. Thus, there is an interest in identifying additional therapeutic interventions for disseminated MAC in HIV-infected patients. Interleukin-12 (IL-12) is a central, regulatory cytokine in cell-mediated immunity. IL-12 enhances the cytolytic activity of cytotoxic T and NK cells, and induces interferon-gamma (IFN gamma) production from T and NK cells. This open-label Phase I study is designed to evaluate the safety and immunologic/microbiologic effects of interleukin-12 administration in HIV-infected patients with concomitant disseminated Mycobacterium avium (MAC) infection. Fifteen patients with documented disseminated MAC will be randomized to receive double-blinded placebo or escalating doses of IL-12 in addition to anti-MAC chemotherapy and standard anti-retroviral therapy for six weeks. IL-12 will be administered subcutaneously, with escalating doses every month over the dose range of 30 ng/kg, 100 ng/kg, and 300 ng/kg, or until an individual maximum tolerated dose (IMTD) is reached. Should a patient receive 2 consecutive blood cultures negative for MAC during the course of the study at a lower dose, then he/she will not be further dose escalated. Those patients receiving placebo after 6 weeks will be crossed over to receive the full treatment course of IL-12. Each new dose or dose escalation will take place on an inpatient basis. Once a patient is clinically stable at a dose, the patient will be maintained at that dose as an outpatient for the remainder of the month. Total IL-12 administration will not exceed 12 weeks, or 24 total doses.