View clinical trials related to AIDS-Related Complex.
Filter by:To determine if methadone treatment will affect the blood levels of zidovudine (AZT) in patients with AIDS or AIDS-related complex (ARC) who are receiving oral AZT and methadone therapy. In addition, the blood levels of methadone both before and during AZT treatment will be studied, and patients receiving daily oral methadone treatment will be evaluated for signs of narcotic withdrawal during treatment with AZT. The number of deaths due to AIDS in high-risk populations continues to increase. Nationwide approximately 25 percent of AIDS patients are intravenous (IV) drug abusers, and it is very likely that an increasingly larger number of AIDS patients receiving AZT therapy will have had a history of IV drug abuse. The major chemical treatment for IV drug abuse is daily methadone maintenance therapy, and IV drug abusers who are HIV positive represent a large number of patients who will undergo long-term treatment with both methadone and AZT. Therefore, the study of potential drug interactions is essential.
To determine the toxic effects of AS-101 at various doses in patients with AIDS or AIDS related complex. Also to determine the effect of various doses of AS-101 on immune functions and the occurrence of infections in these patients. AIDS is a viral disease that is characterized by a loss of some immune function and the development of frequent, eventually fatal, infectious diseases. Although zidovudine (AZT) has prolonged survival in some patients with AIDS, AZT is quite toxic and there is a need for more effective and less toxic drugs. AS-101 is a synthetic organic compound containing the metal tellurium that is being tested because in laboratory studies it improved immune functions.
To study the tolerance and toxicity of the combination of tumor necrosis factor (TNF) and interferon gamma (IFN-G) or as single agent TNF or IFN-G in HIV infected patients. To selectively monitor the immune system of AIDS related complex (ARC) patients who receive either combination therapy or TNF or IFN-G alone. To obtain information on the effectiveness of combination therapy or TNF or IFN-G alone against HIV in ARC patients. Recombinant TNF and recombinant IFN-G have been shown to be effective against the virus which causes AIDS and ARC in some laboratory studies, but may increase virus replication in other laboratory studies. Previous studies in humans showed no increase in virus cultures and some decrease in measurements of virus. Extensive preclinical data show that TNF and IFN-G are more effective together than separately in laboratory and animal studies. As single agents, both TNF and IFN-G have modest effect against HIV. Studies have demonstrated that TNF and IFN-G, in combination, can not only inhibit HIV infection of previously uninfected cells, but also can selectively induce the destruction of acutely infected target cells.
To evaluate the safety, minimum effective dose (MED), pharmacokinetics and efficacy of orally administered 2',3'-dideoxy-2',3'-didehydrothymidine (d4T) in patients with AIDS or AIDS related complex (ARC). To establish an appropriate dosage regimen of d4T to be employed in Phase II and III trials. To evaluate the effects of de-escalating doses of d4T on markers associated with HIV infection. Currently, the only FDA-approved therapy for patients with AIDS or ARC is zidovudine (AZT), a drug with significant value but limited use because of toxic effects on the bone marrow. d4T has not been tested in humans, but it has inhibited the reproduction of HIV (the virus that causes AIDS) in laboratory experiments. In some studies with laboratory animals, d4T was less toxic against blood cells than AZT.
To test the safety and tolerance of three different doses of recombinant human interleukin 2 (aldesleukin; IL-2), when it is given for five consecutive days to patients with AIDS or AIDS related complex (ARC), who have also received zidovudine (AZT) for at least 6 weeks just before beginning the IL-2 treatment. AZT is an antiviral drug, which has been shown to be beneficial in some patients with AIDS. IL-2 is a substance found naturally in the body that boosts the body's immune response to invading organisms and tumor cells. These two drugs, when administered together, may have a mutually helpful effect in treating AIDS patients, but before this effect can be studied, it is important to understand the proper dose and any side effects that may occur when these drugs are used together. The study will show how much AZT and IL-2 patients can safely take at the same time and how the two drugs will interact with each other.
To determine the safety, tolerability, and activity of zidovudine (AZT) and zalcitabine (dideoxycytidine; ddC) and the bloodstream levels of these drugs in patients with AIDS or advanced AIDS-related complex (ARC). Treatments using AZT alternating with ddC are being evaluated in ongoing trials with a goal of reducing the toxicity of each while maintaining antiviral effects. In addition, AZT and ddC may work together in a way that both drugs can be taken at lower doses or less frequent intervals when given together. If the doses can be reduced, then toxicity associated with long-term use of one drug may be reduced. Combination of AZT and ddC might reduce the likelihood of the emergence of resistant mutants. Recent studies indicate a reduced sensitivity of HIV isolated from patients after prolonged AZT therapy. Although the clinical significance of this finding is not clear, it would indicate that these combination studies are all the more important. HIV strains with decreased sensitivity to AZT are still sensitive to ddC.
To determine the safety profile of recombinant human CD4-immunoglobulin G (CD4-IgG) and zidovudine (AZT) combination therapy in patients with AIDS or AIDS-related complex (ARC); to assess pharmacokinetic (blood level) properties of CD4-IgG in combination with AZT; and to obtain preliminary indication of the antiviral and immunologic effects of CD4-IgG in combination with AZT in patients with AIDS and ARC. Treatment of AIDS has been directed toward the underlying retroviral infection as well as toward specific opportunistic infections and malignancies that are associated with the syndrome. The most extensively studied drugs are reverse transcriptase inhibitors such as AZT and other nucleoside analogs, including didanosine (ddI) and dideoxycytidine (ddC). The most extensive clinical experience has been achieved with AZT. These clinical trials indicated a decreased incidence of opportunistic infection and increased survival in patients with AIDS. However, AZT treatment is associated with dose-limiting toxicities. Additionally, identification of resistance to AZT has increased the need to test the effectiveness of AZT in combination with other drugs. CD4-IgG is capable of binding to HIV envelope protein (gp120) and inhibiting HIV infectivity in test tube studies. Potential therapeutic benefit in patients with HIV infection may be derived from CD4-IgG.
To determine the safety, pharmacokinetics (blood levels), and effectiveness of didanosine (ddI) when administered both intravenously and orally. After the maximum tolerated dose (MTD) is determined, an appropriate dosage regimen will then be established for Phase II and Phase III trials. Zidovudine (AZT) has produced the best clinical results in the drug therapy of AIDS to date, but it produces toxicity in approximately 50 percent of patients. Early data show that ddI possesses high antiviral activity and less toxicity than AZT. The most effective route and dose of ddI has yet to be determined.
The study is designed to test the drug zidovudine (AZT) in children, including study of drug levels in various parts of the body fluids, safety of the drug, and its effect on different parts of the body. The effects of any drug, the way a drug enters the bloodstream, the way it is used by the body, and the way the body eliminates the drug may be very different in children compared with adults. The largest group of children who have AIDS are those who are less than 2 years of age. AIDS is often first identified in infants who are about 6 months old. Studies of AZT show that it might be useful in the treatment of AIDS. Thus it is important to study the effects of the drug in children.
To determine the following about the use of SC-48334 in patients with AIDS and advanced AIDS related complex (ARC): 1. The largest maximum tolerated dose (MTD); 2. Effectiveness against HIV; 3. Pharmacokinetics - how fast SC-48334 reaches the bloodstream, what concentration is reached, and how long it remains in the patient's blood. SC-48334 is a chemical that prevents the biochemical actions of certain enzymes in the body, and recent studies have shown that it may also prevent the activity of HIV. The study will attempt to show whether SC-48334 can safely and effectively break the cycle of HIV infection in AIDS and advanced ARC by progressively eliminating HIV.