There are more than 498,563 clinical trials published worldwide with over 60,000 trials that are currently either recruiting or not yet recruiting. Use our filters on this page to find more information on current clinical trials or past clinical trials (free or paid) for study purposes and read about their results.
To evaluate and compare 3 anti-pneumocystis regimens plus zidovudine (AZT) in persons with HIV infection and T4 cell count less than 200 cells/mm3. All persons completing at least 8 weeks of therapy on 081 will be offered the opportunity to participate in the nested study (ACTG 981) of systemic antifungal therapy (fluconazole) versus local therapy (Clotrimazole) for the prevention of serious fungal disease. Persons with HIV disease who are receiving AZT are at risk for PCP, toxoplasmosis, bacterial pneumonia, and other serious infections. It is therefore important to find drugs that can be given along with AZT to control these infections. Aerosolized pentamidine (PEN) has been shown to be useful in preventing PCP and is expected to lower the 2-year risk of PCP. Both sulfamethoxazole/trimethoprim (SMX/TMP) and dapsone probably also provide effective preventive treatment against PCP, and both may be useful in preventing toxoplasmosis and extrapulmonary pneumocystosis.
To test the effectiveness of itraconazole in preventing the recurrence of disseminated histoplasmosis in AIDS patients. Histoplasmosis is a serious opportunistic infection in patients with AIDS. Amphotericin B has been used to treat the infection. Although the response to this treatment is generally good, up to 90 percent of AIDS patients who have taken amphotericin B to treat their histoplasmosis infection will have a relapse (that is, they will get the disease again) within 12 months following treatment. Ketoconazole has been used to prevent relapse, but available information suggests that up to 50 percent of AIDS patients relapse even with ketoconazole treatment. A more effective therapy to prevent recurrence is needed. Itraconazole has been used successfully to treat disseminated histoplasmosis in non-AIDS patients and it is hoped that it may be more effective in preventing histoplasmosis relapse.
To prevent individuals who have had a massive accidental exposure to HIV from becoming infected with HIV and possibly developing AIDS, by treating them with zidovudine (AZT). Although the number of persons who have been (or will be) exposed to a high concentration of HIV is quite small, these persons have a high risk of becoming infected and treatments are needed to prevent infection after such an exposure. In animal studies, AZT has prevented the development of infections after exposure of the animals to a retrovirus (the HIV is a retrovirus). In patients with AIDS, AZT has been effective in delaying the progression of the disease. For these reasons a trial of AZT is indicated.
To determine whether taking zidovudine (AZT) will change the natural course of HIV infection in patients with AIDS-associated Kaposi's sarcoma (KS) and whether administering AZT at a similar dose but at different intervals will reduce toxicity in a more manageable treatment plan. Patients infected with AIDS can benefit from therapy with an effective anti-AIDS virus agent. AZT is a drug that is effective in inhibiting the effects of HIV infection. The study will show whether toxicity of AZT can be reduced in a more manageable treatment plan, and whether AZT therapy will delay the development of opportunistic infections and/or KS lesions.
To evaluate the clinical and laboratory toxicity of ganciclovir (GCV) and zidovudine (AZT) when given in combination. Because recent information has shown AZT to be useful in treating AIDS, it is assumed that most patients with AIDS, and probably with AIDS related complex (ARC), will be receiving AZT. Because AZT is reported not to be active against cytomegalovirus (CMV), it is important to see if it is useful to give GCV along with AZT.
To study the natural course of AIDS related Kaposi's sarcoma and to determine the usefulness and safety of weekly administration of small doses of doxorubicin. Doxorubicin is one of the most active of all antitumor agents but at currently used doses toxicity is common. When small doses are administered on a weekly schedule, the toxicity of the drug appears to be reduced.
To determine how much of a dose is absorbed by the body when zalcitabine ( dideoxycytidine; ddC ) is given orally and how long the drug stays in the body after absorption or intravenous (IV) administration. Laboratory tests have shown that ddC is effective in stopping the growth of the HIV in test tubes. The study will reveal the pharmacokinetic (blood levels) properties of this new drug and how long the drug remains in the body at each of six doses. This should be useful background information and should allow a simple and efficient comparative study of any new oral formulation, such as a tablet or capsule, since dose-related problems will already be known.
To evaluate the safety and effectiveness of trimetrexate (TMTX) given at increasing doses along with the leucovorin calcium (LCV) for treating Pneumocystis carinii pneumonia (PCP) in AIDS patients TMTX is an experimental new drug which is effective for treatment of PCP, but has been given to only a few patients. Therefore it is not certain if TMTX is better, the same as, or not as effective as conventional drugs against PCP.
To obtain information about the long-term safety and toxicity of zidovudine (AZT). To ascertain whether interruption/resumption at a lower dosage is the optimal management of AZT toxicity. Because of the high incidence of toxicity and the relatively short-term follow-up of the patients due to the early ending of the Phase II placebo-controlled experiment, it is valuable to continue to get information on the long-term toxicity of AZT.
To evaluate the degree and sequence of immunologic enhancement and the cellular resistance to certain infections after a single dose of atvogen (ampligen). In addition, the relationship between activation of immune cells and biochemical markers of that activation will be studied. Treatment of patients with HIV infection must address both the primary viral infection and the subsequent immune deficiency, which is the primary cause of mortality in AIDS. In vitro studies of ampligen have shown it will inhibit HIV infection. Ampligen may also minimize the toxicity of many drugs used in the treatment of AIDS and induce an antiviral state in the brain that may be useful in treating neurologic symptoms of HIV infection. The time course and degree of immunologic response to ampligen remain unknown although they are essential for proper use of the drug in the treatment of HIV infection and perhaps other clinical problems.