View clinical trials related to Sarcoma, Kaposi.
Filter by:To compare the toxicity profiles (severity and time to onset from initiation of therapy) between daunorubicin (liposomal) and combination chemotherapy with doxorubicin/bleomycin/vincristine (ABV), with both regimens administered in combination with antiretroviral therapy. To compare the duration of responses, response rates, and times to response.
This protocol presents the rationale, 25-year historical review, and methods for multidisciplinary, low-risk studies of individuals referred to the NCI Viral Epidemiology Branch (VEB). Referrals are generally for unusual types of cancer or related conditions, known, or suspected to be related to viruses. Kaposi's sarcoma in two homosexual men evaluated in 1981 is a classic example. These referral cases provide the basis for pilot studies that generate hypotheses, the development of protocols for formal investigations of promising leads, and help to set priorities for VEB. A VEB investigator who is a Staff Member at the NIH Clinical Center, interviews each subject, performs a physical examination, draws a blood sample, and, when appropriate for the disease or virus under study, obtains other clinically indicated biological specimens, such as urine, sputum, saliva, tears, semen, Pap smear, or cervical, anal, oral, or nasal swabs. On occasion, other relatively non-invasive studies may be indicated. Skin testing with conventional, licensed antigens for assessment of cellular immunity may be performed, and skin lesions may be biopsied or excised. Tumor or other tissue biopsies may be obtained when biopsy or surgery is clinically indicated for other reasons. Otherwise no surgery is performed, and no therapy is administered. Clinical referral to other components of NCI, NIH, or the private sector are made as needed. The biological specimens are frozen or otherwise preserved to be batch tested in current assays or future assays that will be developed. Such laboratory testing is performed either at VEB's own support laboratory, or collaboratively in other NCI, NIH, or extramural laboratories that have the needed expertise for the disease or virus under study. Occasionally, repeated or more long-term evaluation is required. More often, a single evaluation in the NIH outpatient clinic, or either at a collaborating physician's office or other suitable site in the field, is sufficient. The VEB investigator provides counseling relevant to the virus or disease under study, and about the interim study results. He or she makes appropriate referral if needed (e.g., to the Genetic Epidemiology Branch for genetic counseling). Clinically relevant results and the VEB investigator's interpretation of these results, are provided in writing to the subject's primary caregiver. Confidentially of the information that is obtained is carefully protected. The results of the study are summarized for publication in the peer review literature.
This study will test the safety and effectiveness of genetically altered T lymphocytes (white blood cells of the immune system) in reducing viral load in patients infected with the human immunodeficiency virus (HIV). The lymphocytes will have two genes inserted into them; a laboratory-manufactured anti-HIV gene designed to inhibit HIV reproduction (either the RevTD or Rev-TD-antiTAR gene), and a "marker" gene that will show whether or not the inserted genes have gotten into the cells. Identical twin pairs 18 years of age and older- one of whom is HIV-positive (infected with the human immunodeficiency virus) and the other HIV-negative (not infected) may be eligible for this study. All participants will have a complete medical history and physical examination, blood tests and a tetanus booster shot, if indicated. The non HIV-infected twin will then undergo lymphapheresis to collect lymphocytes. In this procedure, whole blood is collected through a needle placed in an arm vein. The blood circulates through a machine that separates it into its components. The lymphocytes are then removed, and the red cells and plasma are returned to the donor, either through the same needle or through a second needle placed in the other arm. The donor cells are grown in the laboratory for a few days, and then the new genes are inserted into them. The genetically altered cells are grown in the laboratory for several days until their numbers increase approximately a thousand-fold. They are then infused intravenously (through a vein) into the infected twin. These procedures-lymphapheresis, gene modification and infusion-will be repeated at approximately 2-month intervals up to four times. Each lymphocyte infusion takes about 60 minutes. The patient's vital signs (temperature, pulse, blood pressure and breathing) are monitored frequently during the infusion and hourly for 4 hours after the infusion. Blood samples are taken the day of the infusion, 3 days later, and then weekly to monitor the gene-modified cells, immune status, viral activity, and other factors. These tests may be done less often as the study progresses and more is learned about the safety of the infusions. The infusions are done on an outpatient basis unless side effects require that they be done in the hospital with post-infusion monitoring for at least 24 hours. Patients will be followed for long-term effects of treatment monthly for the first 3 months, once a month for the next 9 months and yearly from then on. This study will contribute information about the use and side effects of gene therapy in HIV infection that may lead to new treatment strategies. A potential direct benefit to HIV-infected individuals participating in this study is reduced viral load; in laboratory studies, the RevTD and Rev-TD-antiTAR genes have inhibited HIV spread in the test tube. However, this is an early phase of study, and the likelihood of receiving this benefit is unknown.
We propose to test, by DNA linkage analysis of family pedigree members, the following interrelated hypotheses: 1) that sexual orientation is genetically influenced; 2) that the development of Kaposi's sarcoma and other outcomes of HIV infection in male homosexuals is affected by host susceptibility genes, circulating sex hormone levels, or HLA haplotype; and 3) that alcoholism and other psychobehavioral conditions are associated with homosexuality on a genetic basis and/or influenced by candidate behavioral loci. The subjects for these studies will be self-identified male and female homosexual probands and their relatives from families in which there are at least two individuals with homosexual orientation. All subjects will be adults, and will be referred through NIH physicians, private practitioners, and gay and lesbian organizations. Subjects will undergo a sexual orientation and behaviors interview, a psychiatric interview, and phlebotomy for HIV testing, HLA determination, endocrine measurements, and preparation of DNA from cultured lymphocytes. The DNA samples will be analyzed for a series of genetic markers that span the human genome and for candidate loci chosen for function.
The purpose of this study is to find out why cancers develop in HIV-positive patients. Cancer is a leading cause of death in AIDS patients. Common cancers in HIV-infected patients include Kaposi's sarcoma (KS) and non-Hodgkin's lymphoma (NHL), a cancer of the immune system. Risk factors include certain chemicals, viruses, and perhaps even anti-HIV drugs. Doctors would like to find out which risk factors are most important and how they relate to cancer in AIDS patients.
Primary: To evaluate the safety, toxicity, and antitumor activity of two doses of interferon alfa-2b (IFN-alpha) combined with a fixed dose of didanosine (ddI) in patients with Kaposi's sarcoma associated with HIV infection. Secondary: To evaluate the effects of combined IFN-alpha and ddI treatment on HIV expression and markers of immune function. Previous studies have shown that IFN-alpha can induce regression of Kaposi's sarcoma and suppression of HIV in some patients. Although various trials using IFN-alpha in combination with the nucleoside analogue zidovudine have demonstrated a high degree of antitumor activity and evidence of HIV suppression, the overlapping toxicity (primarily neutropenia) of these two agents has proven dose-limiting. The toxicity profile of ddI suggests that this drug may be better tolerated than zidovudine when combined with IFN-alpha.
To evaluate the safety and toxicity of combination therapy for AIDS-associated Kaposi's sarcoma with zidovudine (AZT) and two kinds of interferon alpha. The two kinds are interferon alpha (IFN-A) and interferon alpha-2A (recombinant) (IFN-A2A). To define the pharmacokinetics of AZT and IFN-A or AZT and IFN-A2A when given in combination. To define the maximum tolerated dose (MTD) of each drug in combination and to define doses to be used in Phase II trial. AZT has been found to be effective against the effects of HIV in vitro (test tube) and both interferons have shown antiviral and antitumor effect on Kaposi's sarcoma. It is reasonable to assume that a synergism and an enhanced antitumor response may be seen with combination therapy. A study to evaluate the safety and effectiveness of AZT in the combination with IFN-A2A is warranted.
To evaluate the safety and efficacy of liposomal doxorubicin hydrochloride ( DOX-SL ) alone or in combination with bleomycin and vincristine in the long-term treatment of AIDS-related Kaposi's sarcoma. To determine whether the 3-drug combination enhances progression-free survival and quality of life. Liposomal formulations of chemotherapeutic agents increase drug accumulation in tumors, which permits disease palliation at relatively low doses and thus decreases some of the dose-limiting toxicity. Multi-agent therapy is considered to be more effective than single-agent therapy; therefore, DOX-SL will be combined with bleomycin and vincristine.
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 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.