Active clinical trials for "Infections"

To evaluate the safety and efficacy of tigecycline in the treatment of selected serious infections caused by VRE. The primary efficacy endpoint will be the clinical response for all subjects.

Observational studies suggest that male circumcision may provide protection against HIV-1 infection. A randomized, controlled, intervention trial was conducted in a general population of South Africa to test this hypothesis.

This is a 48-week study to evaluate the safety, tolerability, pharmacokinetics, and antiviral activity of an investigational regimen including FDA approved HIV drugs in HIV-infected pediatric subjects, ages 4 weeks to < 2 years old.

This study will determine the safety and side effects of two experimental HIV vaccines given in a "prime-boost" schedule. It will also monitor participants for the social impact of being in an HIV vaccine study (e.g., problems with insurance, health care, friends, family, employment, housing, and so forth). The vaccines are VRC-HIVDNA016-00-VP (called the DNA vaccine) and VRC-HIVADV014-00-VP (called the rAd vaccine). The DNA vaccine codes for four HIV proteins. The rAd vaccine is made using an adenovirus (a common virus that causes upper respiratory infections, such as the common cold) that has been modified to contain DNA that codes for three HIV proteins. These vaccines cannot cause HIV or adenoviral infections. The study will also see if the vaccines cause an immune response; if the injection of the DNA vaccine given using a needle and syringe is similar in safety and immune response to giving them with a needleless injection device called a Biojector 2000; if people who already have antibodies to adenovirus still have an immune response to rAd vaccine; and if there are social harms that result from participating in an HIV vaccine study. Healthy volunteers between 18 and 50 years of age may be eligible for this 42-week study. Candidates are screened with a medical history, physical examination, blood and urine tests (including pregnancy test for women), and questions regarding sexual behavior and other practices. Participants receive three injections (shots) of the DNA vaccine and one injection of the rAd vaccine. All injections are given into a muscle in the upper arm (alternating right and left arms with each injection), using a needle and syringe or the needleless Biojector 2000. The first vaccination is given the day of enrollment into the study, and the DNA vaccinations are given about 4 weeks apart from each other, with a minimum of 21 days between injections. The rAd "booster"vaccination is given at Week 24. Participants fill out a diary card at home for 5 days after each vaccination, recording their temperature and any symptoms. They come to the clinic for follow-up 3 days each DNA vaccine injection, and call or return again 7 days after each injection. They call a study nurse 1 or 2 days after the rAd injection. There are 15 to 18 clinic visits during the course of the study. At each visit, participants are checked for health changes or problems. Blood and urine samples are collected at some visits. Participants are periodically tested for HIV and asked questions about their sexual behavior and drug use and are counseled throughout the study on HIV risk reduction. They are also asked about any social effects they may have experienced as a result of their participation in this study.

OBJECTIVES: I. Determine the bacteriological activity of amithiozone against Mycobacterium avium complex (MAC) pulmonary disease. II. Define the ability of amithiozone to improve clinical outcomes in patients with MAC infection. III. Determine the safety and tolerance of amithiozone with chronic dosing in these patients. IV. Assess the contribution of clarithromycin, streptomycin, rifampin, ethambutol, kanamycin, and amithiozone in the treatment of pulmonary MAC infection.

It is not known if anti-HIV treatment for recently infected patients improves long-term patient prognosis. The purpose of this study is to determine if a one year course of anti-HIV medications slows progression of HIV disease in adults recently infected with HIV. Study hypothesis: A one-year course of HAART administered during acute or early seroconversion may slow the progression of HIV infection.

This was a clinical trial in HIV infected patients with tuberculosis. The study assessed whether the addition of prednisolone, a type of steroid medication, to the standard treatment for tuberculosis improved immune and viral outcomes in the patients. The study demonstrated that prednisolone increased the CD4 cell count as was hoped, but the beneficial effect was short-lived and was gone within 4 months of stopping therapy. Therefore, the use of prednisolone for tuberculosis in HIV infected patients is not recommended at this time.

This study will evaluate the safety and immune system effects of infusing HIV-infected patients with multiple doses of lymphocytes (white blood cells) from their non-infected identical twin. It will determine whether the donated lymphocytes can improve immune function and reduce viral load in the infected twin. Identical twin pairs-one who is infected with HIV-1 and one who is negative for the virus-may be eligible for this study. Candidates will be screened with blood tests, a medical history and physical examination. Both twin participants will receive a tetanus booster shot, if needed. The non-infected twin will undergo apheresis to collect white blood cells. For this procedure, whole blood is collected, similar to the procedure for donating a unit of blood from a needle in the arm. The blood flows through a cell separator machine where the white cells are removed, and the rest of the blood (red cells, plasma and platelets) is returned to the donor through a catheter in the opposite arm. The collected lymphocytes will be given intravenously (through a vein) to the infected twin over a 60-minute period. This procedure-apheresis and infusions-will be repeated 4 days a week to complete one cycle. The cycles will be repeated about every 8 weeks for 6 cycles (about 1 year). The infected twin will have blood samples drawn on the first day of each cycle, 2 weeks after the beginning of each cycle, and 4 weeks after each cycle to evaluate immune status, viral load and other safety parameters. The frequency of these blood tests may change as the study progresses. The infected twin will also undergo apheresis immediately before each cycle of infusions and one month later to test the white cells for certain immune features. The number of apheresis procedures may be reduced as the study proceeds.

Bacteria carry substances on their surface called antigens. When antigens come into contact with the right kinds of cells in the body an immune reaction is caused. This reaction is often the symptoms of sickness that a patient feels. In order for the body to fight off the attack of antigens, it creates substances called antibodies. Antibodies counter the action of antigens and make the bacteria harmless. However, the immune system must learn how to make the right antibodies for the right antigens. Sometimes the body creates antibodies that confuse normal tissues as foreign and attack them. This is called an autoimmune reaction and sometimes occurs when the body is exposed to certain bacteria. One bacteria known for causing autoimmune reactions is Group A beta-hemolytic Streptococcus (GABHS). This bacteria often causes throat infections commonly known as "strep throat". Some researchers believe that the autoimmune reaction associated with strep throat infections may cause neuropsychiatric disorders, like obsessive-compulsive disorder and/or tic disorder in children. As a result, each time a child with one of these disorders experiences an infection with GABHS his/her symptoms can reoccur or worsen. Researchers believe that by giving patients a certain antibiotic, they can prevent GABHS infection and thus prevent the return of symptoms. This study is designed to test the effectiveness of the antibiotic Amoxicillin for the treatment of Pediatric Autoimmune Neuropsychiatric Disorders Associated with Streptococcal infections (PANDAS). Patients will receive Amoxicillin for six weeks and placebos "inactive sugar pills" for six weeks in order to see if the medication is truly working. Effectiveness of the treatment will be based on the presence or absence of symptoms. If at the end of the study Amoxicillin is proven to be effective treatment for PANDAS patients may be offered the opportunity to continue taking the medication for an additional six months.

This is a phase I/II study to determine the safety and tolerance of the protease inhibitor indinavir (MK-0639), alone and then in combination with HIV reverse transcriptase inhibitor therapy in children with HIV infection. Indinavir sulfate (the capsule formulation) has been shown to have potent antiviral activity and an acceptable safety profile in adults. HIV-infected children who have not received prior antiretroviral therapy, and children who have become refractory to prior therapy, or who have experienced toxicity to prior therapy, will be included. In addition, we will explore viral and CD4 cell kinetics before starting therapy and following exposure to antiretroviral agents. The study will be conducted in three parts. In order to help interpret the antiviral activity of indinavir, the virologic and immunologic profile of children will be studied within 2 weeks prior to starting the therapeutic part. For children who have never been treated, this will be before the initiation of any antiretroviral therapy and for children who have already received antiretroviral therapy, this will be done during the initial "wash-out" phase that is routinely interposed between two different treatment regimens. The initial 16 weeks of therapy will then evaluate the toxicities, pharmacokinetics, and preliminary efficacy of single drug therapy with indinavir. Subsequently, all children who are able to tolerate the combination of zidovudine and lamivudine (i.e., have no prior history of intolerance to one of these two agents) will be treated with these two reverse transcriptase inhibitors in addition to the protease inhibitor indinavir. Zidovudine and lamivudine will be added after 16 weeks at a fixed dosage. Toxicity, pharmacokinetics, and preliminary efficacy of indinavir will also be investigated after combination therapy. All patients who wish to remain in this study after 96 weeks of therapy and who do not meet off study criteria will be permitted to receive extended treatment with their current indinavir combination therapy for an additional 48 weeks. The study will determine the pharmacokinetic profile of indinavir, given as single drug or in combination with zidovudine and lamivudine. It will assess the preliminary antiviral and clinical activity by monitoring clinical status, viral burden in plasma, and markers of immunologic status. Based on safety and preliminary efficacy results from studies performed in adults, we will study three dose levels which are expected to result in drug levels above the IC95 of HIV-1 for all or most of the dosing interval.