Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of antiretroviral therapy on both T-cell numbers and T-cell function in peripheral blood was studied. CD4+ and CD8+ T-cell numbers, T-cell reactivity to CD3 monoclonal antibodies (mAb), and viral RNA load date were obtained from patients treated for at least 28 weeks with either the HIV-1 protease inhibitor ritonavir, the nonnucleoside HIV-1 reverse transcriptase (RT) inhibitor nevirapine, or the nucleoside-analogue RT inhibitor zidovudine. Compared with both RT inhibitors, treatment with the protease inhibitor ritonavir resulted in the most significant and persistent elevation of CD4+ and CD8+ T-cell counts. However, in vitro T-cell functional improvement was of limited duration in the ritonavir-treated group and was inversely correlated with viral RNA load changes during the entire follow-up period. Thus, despite what can be assumed of responses during RT inhibitor therapy, quantitative responses on therapy did not necessarily correlate with qualitative immunologic responses, as can be seen during treatment with ritonavir. For optimal immune reconstitution, both numeric and functional immunologic improvements are essential. During antiretroviral therapy, measurement of in vitro improvement in immune function will be useful as a correlate for transient drug-induced alteration of immunodeficiency.
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PMID:Patterns of T-cell repopulation, virus load reduction, and restoration of T-cell function in HIV-infected persons during therapy with different antiretroviral agents. 942 Mar 8

A sensitive high-perforrmance liquid chromatographic assay has been developed to determine the concentrations of the HIV-protease inhibitor indinavir in human plasma. The sample pretreatment involved a protein precipitation procedure using 100 microl of human plasma and 400 microl of acetonitrile. Chromatography was carried out on an Octadecyl column using a mobile phase of acetonitrile-water (40:60, v/v). The water phase contained 50 mM phosphate buffer pH 6 and 4 g/l tetramethylammoniumchloride. Ultraviolet detection at 210 nm was used. The method has been validated with regard to specificity, detection limit, lower and upper limit of quantitation, recovery, accuracy, and inter- and intra-assay precision. Stability tests under various conditions were performed. The bioanalytical assay is now in use for the determination of indinavir in several clinical pharmacokinetic studies in HIV-infected patients.
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PMID:Determination of indinavir, an HIV-protease inhibitor, in human plasma by reversed-phase high-performance liquid chromatography. 944 81

The structure-activity studies leading to the potent and clinically efficacious HIV protease inhibitor ritonavir are described. Beginning with the moderately potent and orally bioavailable inhibitor A-80987, systematic investigation of peripheral (P3 and P2') heterocyclic groups designed to decrease the rate of hepatic metabolism provided analogues with improved pharmacokinetic properties after oral dosing in rats. Replacement of pyridyl groups with thiazoles provided increased chemical stability toward oxidation while maintaining sufficient aqueous solubility for oral absorption. Optimization of hydrophobic interactions with the HIV protease active site produced ritonavir, with excellent in vitro potency (EC50 = 0.02 microM) and high and sustained plasma concentrations after oral administration in four species. Details of the discovery and preclinical development of ritonavir are described.
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PMID:Discovery of ritonavir, a potent inhibitor of HIV protease with high oral bioavailability and clinical efficacy. 948 9

A simple, ion-pair high-performance liquid chromatographic method has been developed and validated for the quantitative determination of the HIV protease inhibitor ritonavir in human plasma, cerebrospinal fluid and saliva. Sample pretreatment consisted of precipitation of proteins with acetonitrile prior to high-performance liquid chromatography with ultraviolet detection at 239 nm. The method has been validated over the range of 50 ng/ml to 50 microg/ml with use of 100-microl volumes of sample. The currently described assay has been used successfully for the analysis of ritonavir in plasma, cerebrospinal fluid and saliva in HIV-1 infected patients.
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PMID:High-performance liquid chromatographic determination of ritonavir in human plasma, cerebrospinal fluid and saliva. 949 78

Plasma human immunodeficiency virus type 1 (HIV-1) populations were genetically analyzed at their most variable locus, the envelope gene, during the rapid emergence of resistance to protease inhibitor monotherapy. Plasma virus populations remained genetically constant prior to drug treatment and during the 1 to 2 weeks following initiation of therapy, while viremia fell 10- to 100-fold. Concomitant with rapid plasma viremia rebounds associated with the emergence of drug-resistant virus, marked alterations were then detected at the env locus. Plasma population changes lasted only a few weeks before the reappearance of the pretreatment envelope variants. The emergence of resistance to single protease inhibitors was therefore associated with major but transient changes at a nonselected locus. Selection for resistance to single protease inhibitors thus appears to be more complex than the continued replication of a large, random, and therefore genetically representative sampling of the pretreatment plasma population. The possibility that drug-privileged anatomical sites containing distinct envelope variants and/or a small effective HIV-1 population size account for these results is discussed.
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PMID:Rapid, transient changes at the env locus of plasma human immunodeficiency virus type 1 populations during the emergence of protease inhibitor resistance. 949 2

Indinavir sulfate is a human immunodeficiency virus type 1 (HIV-1) protease inhibitor indicated for treatment of HIV infection and AIDS in adults. The purpose of this report is to summarize single-dose studies which characterized the pharmacokinetics of the drug and the effect of food in healthy volunteers. Indinavir concentrations in plasma and urine were obtained by high-pressure liquid chromatography and UV detection assay methods. The results indicate that indinavir was rapidly absorbed in the fasting state, with the time to the maximum concentration in plasma occurring at approximately 0.8 h for all doses studied. Over the 40- to 1,000-mg dose range studied, concentrations in plasma and urinary excretion of unchanged drug increased greater than dose proportionally. The nonlinear pharmacokinetics were attributed to the dose-dependent oxidative metabolism of first-pass metabolism as well as to metabolism in the systemic circulation. Renal clearance slightly exceeded the glomerular filtration rate, suggesting a net tubular secretion component. At high concentrations in plasma, tubular secretion appeared to be lowered because there was a trend for a decreased renal clearance. Administration of 400 mg of indinavir sulfate following a high-fat breakfast resulted in a blunted and decreased absorption (areas under the concentration-time curves [AUCs], 6.86 microM.h in the fasted state versus 1.54 microM.h in the fed state; n = 10). However, two types of low-fat meals were found to have no significant effect on the absorption of 800 mg of indinavir sulfate (AUCs, 23.15 microM.h in the fasted state versus 22.71 and 21.36 microM.h, respectively, in the fed state; n = 11). Immediately following dosing, the concentrations of indinavir in urine often exceeded its intrinsic solubility. To reduce the risk of nephrolithiasis, it is recommended that indinavir sulfate be administered with water.
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PMID:Single-dose pharmacokinetics of indinavir and the effect of food. 952 81

While CD4 cell counts are widely used to predict disease progression in human immunodeficiency virus (HIV)-infected patients, they are poorly explanatory of the progression to AIDS or death after the introduction of chemotherapy. Changes in HIV load (as measured by RNA PCR) have been shown to be a much better predictor of the risk of disease progression. Since the interrelationship of these markers is of great clinical interest, we modeled the time-averaged return of CD4 cell count and change in viral load subsequent to therapy with the HIV protease inhibitor indinavir. We found that CD4 cell return was significantly related to both the baseline CD4 count (r2 = 0.86, P < 0.001) and the decline in HIV RNA PCR-determined viral load (also referred to in this work as the HIV RNA PCR decline) (r2 = 0.60, P < 0.01). Simultaneously modeling both influences in a linked nonlinear model (r2 = 0.93, P < 0.001) demonstrated that (i) the starting number of CD4 cells accounted for the majority of the change in CD4 cell return and (ii) the return of CD4 cells attributable to viral load decrease was 50% of maximal with only a decrease of approximately 0.2 log of HIV RNA as modeled from the first 12 weeks of therapy. Much greater viral inhibition beyond that necessary for maximal CD4 cell return is possible. Given that HIV RNA PCR decline is more strongly linked to ultimate clinical course in HIV disease, our findings indicate that CD4 return is potentially misleading as an indicator of antiviral effect, since it is determined more by the starting CD4 value than by viral load decline and since near-maximal changes occur with minimal antiviral effect.
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PMID:Mathematical modeling of the interrelationship of CD4 lymphocyte count and viral load changes induced by the protease inhibitor indinavir. 952 86

The frequency of drug-resistant human immunodeficiency virus type 1 (HIV-1) variants in virus populations not previously exposed to drug was determined in vitro by using HIV-1RF and the protease inhibitor SC-55389A. Two variants with single mutations responsible for drug resistance (V82A and N88S) were quantifiably isolated after only one round of replication, yielding a crude frequency estimate of at least 1 SC-55389A-resistant variant per 3.5 x 10(5) wild-type infectious units.
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PMID:Estimate of the frequency of human immunodeficiency virus type 1 protease inhibitor resistance within unselected virus populations in vitro. 952 15

In the absence of evidence that eradication of HIV from an infected individual is feasible, the established goal of antiretroviral therapy is to reduce viral load to as low as possible for as long as possible. Achieving this with the currently available antiretroviral agents involves appropriate selection of components of combination regimens to obtain an optimal antiviral response. In addition, consideration of a plan for a salvage or second-line regimen is required if initial therapy fails to achieve an optimal response or should loss of virological control occur despite effective initial therapy. Such a planned approach, based on consideration of the likely modes of therapeutic failure (viral resistance, cellular resistance, toxicity) could be called rational sequencing. Choice of therapy should never involve compromise in terms of activity. However, the choice of drug should also be guided by tolerability profiles and considerations of coverage of the widest range of infected cells, compartmental penetration, pharmacokinetic interactions and, importantly, the ability of an agent or combination to limit future therapeutic options through selection of cross-resistant virus. Available clinical end-point data clearly indicate that combination therapy is superior to monotherapy, with clinical and surrogate marker data supporting the use of triple drug (or double protease inhibitor) combinations over double nucleoside analogue combinations. Thus, 3-drug therapy should represent current standard practice in a nontrials setting. Treatment should be considered as early as practical, and may be best guided by measurement of viral load, with a range of other markers having potential utility in individualising treatment decisions. Therapeutic failure may be defined clinically, immunologically or, ideally, virologically, and should prompt substitution of at least 2, and preferably all, components of the treatment regimen. Drug intolerance may also be best managed by rational substitution.
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PMID:Antiretroviral therapy for HIV infection. A knowledge-based approach to drug selection and use. 953 May 44

Saquinavir is an HIV protease inhibitor which, formulated as a hard-gel capsule (HGC), was the first drug of its class to become available for the treatment of patients with HIV infection. Despite the beneficial effects that saquinavir HGC-containing combination regimens have shown in the treatment of patients with HIV infection, the HGC formulation has limited oral bioavailability and has shown only modest antiviral activity in vivo. To overcome this limitation (with the aim of improving antiviral efficacy), a soft-gel capsule (SGC) formulation of the drug has been developed. At the recommended dosage of 1200 mg 3 times daily, the SGC formulation of saquinavir achieves plasma concentrations > 8 times higher than those in patients receiving saquinavir HGC 600 mg 3 times daily. Initial results of trials evaluating the therapeutic efficacy of saquinavir SGC-containing combination therapy in patients with moderate to advanced HIV infection are promising. In patients who were previously antiretroviral therapy-naive or -experienced, short term (< or = 36 weeks) treatment with saquinavir SGC in combination with > or = 2 nucleoside reverse transcriptase inhibitors (NRTIs), or nelfinavir, or 2 NRTIs plus nelfinavir led to marked improvements in virological and immunological markers of HIV disease. In comparative trials, saquinavir SGC showed improved antiviral activity compared with the HGC formulation in terms of reducing viral load. Furthermore, saquinavir SGC in combination with 2 NRTIs was as effective as indinavir plus 2 NRTIs in antiretroviral-naive or -experienced patients. Available data suggest that saquinavir SGC-containing combination therapy may be of greatest benefit in patients naive to previous antiretroviral therapy. The SGC formulation of saquinavir appears to be generally well tolerated by adults with HIV infection. Gastrointestinal adverse events, notably diarrhoea, abdominal discomfort, nausea and dyspepsia, are the most common adverse events occurring during treatment with the drug. Initial results of several trials that used surrogate markers to assess treatment efficacy indicate that the SGC formulation of saquinavir, administered in combination with other antiretroviral drugs, is an effective and well-tolerated treatment for patients with moderate or advanced HIV infection. Although further data are required before definitive conclusions can be drawn regarding the comparative efficacy and tolerability of the SGC and HGC formulations, it appears likely that the SGC formulation will replace the conventional formulation as a component of combination regimens for the treatment of patients with HIV infection.
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PMID:Saquinavir soft-gel capsule formulation. A review of its use in patients with HIV infection. 953 May 49


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