There are about 2656 clinical studies being (or have been) conducted in Puerto Rico. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
The purpose of this study is to see if giving the anti-HIV drug nevirapine (NVP) to HIV-positive pregnant women and their babies can help reduce the chance that a mother will give HIV to her baby during delivery. This study will also test the safety of the drug and see how well it is tolerated by the mother and her baby. Previous studies suggest that NVP is a promising medication for blocking HIV transmission from HIV-positive mothers to their babies.
The purpose of this study is to determine the safety, tolerance, and metabolism of single-dose and multiple-dose abacavir (ABC) in HIV-exposed infants receiving standard postnatal treatment with zidovudine (ZDV). This study also evaluates the correct dosages of ABC to be used in future studies. Early aggressive therapy may be the best chance to slow disease progression in infants who may have been infected with HIV by their mothers. Early HIV suppression may significantly reduce viral levels and allow for restoration of the immune system, providing improved control over HIV infection. Therefore, it is important that the safety and tolerance of ABC in combination with ZDV be examined as potential early therapy in newborn and young infants.
To obtain a pharmacokinetic profile of oral ZDV and to determine whether the oral administration of Zidovudine (ZDV) during labor and delivery will provide a similar profile to that obtained with the use of IV ZDV in ACTG 082. To evaluate the tolerance of oral ZDV in this population, defined as the ability to take oral doses and lack of vomiting within 30 minutes of receiving oral study doses. The worldwide use of constant intrapartum ZDV infusions to prevent transmission is not practical or feasible. Approximately 18% of the women in the ACTG 076 trial missed their IV ZDV infusions, even at experienced ACTG sites. There is an urgent need to establish a more practical method of delivering ZDV during labor and delivery that, at minimum, will approximate the rate of ZDV administration utilized in ACTG 082. In the future, this would enable women to start an intensive ZDV regimen during early labor, even prior to reaching the hospital.
The purpose of this study is to examine the safety and tolerability of ZDV when given to premature infants born to HIV-positive women to prevent HIV infection. ZDV has been used successfully to prevent the transmission of HIV from mother to child during pregnancy and birth. However, ZDV has been given to very few premature babies, and the best dose to use has not yet been determined.
The purpose of this study is to see if giving nandrolone decanoate (a hormonal drug) will cause weight gain in HIV-positive women who have HIV-associated weight loss (wasting). Wasting has become an AIDS-defining condition. In the past, most studies that examined wasting treatments were limited to men. However, it appears that wasting in HIV-positive men is linked to levels of testosterone (a hormone which affects men's bodies more than women's). This study has been designed for women only, in order to best treat wasting in HIV-positive women.
To evaluate the safety and determine the pharmacokinetic disposition of stavudine (d4T) alone and in combination with didanosine (ddI), and whether concurrent administration alters the disposition of either drug. To compare d4T versus d4T plus ddI with respect to short and long term changes from baseline in plasma HIV RNA concentrations. To determine the relationship, if any, between drug exposure and viral burden. In a pilot study of d4T and ddI given to eight children with advanced HIV for 24 weeks, the three children with baseline counts greater than 50 cells/micro liter experienced a 20% increase in their CD4+ lymphocyte counts. Based on these results, controlled trials of the same regimen for children with less advanced HIV disease should be undertaken.
To evaluate the single-dose pharmacokinetic profile and acute toxicity of bis-POM PMEA ( adefovir dipivoxil ) in HIV-1 infected children, and to determine whether age-related differences exist. To ascertain dosages that may be suitable for a multiple-dose evaluation in this patient population. Although the oral bioavailability of PMEA ( adefovir ) is low, the prodrug bis-POM PMEA has resulted in increased bioavailability in adult patients in clinical trials. However, the safety and pharmacokinetic patterns of drugs in infants often differ from those of adults and the direction of the variation is not predictable. This study will assess these parameters of bis-POM PMEA in children.
To determine the clinical efficacy of indinavir sulfate or placebo in combination with zidovudine ( AZT ) and lamivudine ( 3TC ) in AIDS patients. Protease inhibitors such as indinavir sulfate may be effective in patients with advanced HIV disease who have received prior AZT therapy. Since studies suggest that triple drug therapy may have an advantage over both monotherapy and two drug therapy, the combination of indinavir sulfate with AZT and 3TC should be evaluated.
To assess the pharmacokinetics, safety, and toxicity of intravenous and oral didanosine (ddI) administration in third trimester pregnant women who are HIV positive but are either intolerant or resistant to zidovudine (AZT). To collect data on infant toxicity following maternal treatment with ddI during the third trimester of pregnancy. AZT may not be the optimal antiretroviral agent for all pregnant women requiring therapy for HIV infection. Although ddI has been approved for use in HIV-infected adults and older children, the safety and pharmacokinetics of ddI in pregnant women has not yet been determined.
To evaluate the efficacy, safety, and pharmacokinetics of lamivudine (3TC) combined with zidovudine (AZT), stavudine (d4T), or didanosine (ddI) in comparison with d4T or ddI monotherapy in HIV-infected patients with no prior nucleoside therapy. 3TC may be uniquely effective in combination with AZT due to the interaction of AZT and 3TC resistance mutations. One explanation is that the M184V mutation, which confers resistance to 3TC, suppresses AZT resistance. This benefit of 3TC may not extend to combination therapy with other nucleoside analogs.