Your search keyword '"Pier E"' showing total 3 results

1. Comparative evaluation of three computerized algorithms for prediction of antiretroviral susceptibility from HIV type 1 genotype.

Author

Maurizio Zazzi, Laura Romano, Giulietta Venturi, Robert W. Shafer, Caroline Reid, Federico Dal Bello, Cristina Parolin, Giorgio Palù, and Pier E. Valensin

Subjects

HIV infections, ALGORITHMS, REVERSE transcriptase, PROTEOLYTIC enzymes

Abstract

Objectives: To compare three methods for using HIV-1 genotype to predict antiretroviral drug susceptibility. Methods: We applied three genotypic interpretation algorithms to 478 reverse transcriptase (RT) and 410 protease sequences for which phenotypic data were available. Sequences were obtained from clinical practice and from published sequences in the Stanford HIV-1 RT and Protease Sequence Database. The genotypic interpretation algorithms included: Stanford HIVdb program (HIVdb), the Visible Genetics/Bayer Diagnostics Guidelines 6.0 (VGI) and a genotypic interpretation program (AntiRetroScan, ARS) developed at the University of Siena, Italy. Genotypic interpretations were normalized to a three-level output: susceptible, intermediate and resistant. Discordances were defined as differences between genotype and phenotype for the same virus isolate. Discordances for which an isolate was considered susceptible by one test but resistant by another test were considered major discordances. Results: The frequency of major discordances between genotype and phenotype was 10.6, 13.7 and 15.7% for ARS, VGI and HIVdb, respectively (P < 0.0001 for ARS versus HIVdb and for ARS versus VGI; P = 0.002 for VGI versus HIVdb). The correlation between genotype and phenotype was highest for non-nucleoside RT inhibitors and lowest for nucleoside RT inhibitors. Half of the major discordances involved stavudine, didanosine and zalcitabine. The concordance among the three genotypic algorithms was high, with weighted Kappa values ranging between 0.76 and 0.84 for the pairwise comparisons between each of the algorithms. Conclusions: Genotype interpretation algorithms correctly predict phenotype in 85-90% of cases, but the rate of concordance is not uniformly distributed among different drugs. These data provide insight into the potential additional benefit derived from phenotyping. [ABSTRACT FROM AUTHOR]

Published

2004

2. Antiretroviral Resistance Mutations in Human Immunodeficiency Virus Type 1 Reverse Transcriptase and Protease from Paired Cerebrospinal Fluid and Plasma Samples.

Author

Venturi, Giulietta, Catucci, Marinunzia, Romano, Laura, Corsi, Paola, Leoncini, Francesco, Valensin, Pier E., and Zazzi, Maurizio

Subjects

HIV infections, THERAPEUTICS, REVERSE transcriptase, PROTEOLYTIC enzymes

Abstract

Describes HIV-1 reverse transcriptase and protease sequences obtained from paired cerebrospinal fluid and plasma samples for patients under different antiretroviral regimens and patients without anti-HIV-1 therapy. Difference in the effect of antiretroviral treatment on HIV-1 replication in the central nervous system and in the peripheral blood; Detection of zidovudine resistance mutations.

Published

2000

3. Evaluation of Cell-Free and Cell-Associated Peripheral Blood Human Immunodeficiency Virus Type 1...

Author

Romano, Laura, Venturi, Giulietta, Catucci, Marinunzia, De Milito, Angelo, Valensin, Pier E., and Zazzi, Maurizio

Subjects

HIV infections, ANTIVIRAL agents, RNA, DRUG therapy

Abstract

Studies cell-free and cell-associated peripheral blood HIV-1 RNA response to antiretroviral therapy. Comparison between peripheral blood mononuclear cell-associated and plasma HIV-1 RNA response to treatment; Changes in HIV-1 RNA loads.

Published

1999