OBJECTIVE: To determine whether baseline drug resistance assays could help to predict treatment failure with the protease inhibitor combination ritonavir-saquinavir. METHODS: Baseline HIV-1 drug resistance was determined for 76 consecutive patients who started treatment with the dual protease inhibitor combination ritonavir-saquinavir between September 1996 and June 1997 either alone or in combination with other antiviral agents. Resistance to 10 different antiviral agents was assessed by both phenotype (Virco Antivirogram) and genotype (Vircogen). RESULTS: Resistance inferred from viral genotype was similar to measured phenotypic resistance for both ritonavir and saquinavir (P<0.01). Baseline drug resistance phenotype was predictive of poor virological response to this dual protease inhibitor combination, despite the confounding effects of other antivirals. Patients were at least four times less likely to achieve a 0.5 log10 decrease in plasma HIV RNA viral load if their viral isolates were resistant to ritonavir or saquinavir. Patients classified as resistant to either drug using either method had median decreases in plasma viral load of 0.05 log10 HIV RNA copies/ml or less, compared to >0.8 log10 for those with sensitive virus. Patients resistant to both drugs never achieved plasma viral loads <100000 copies/ml. As little as fourfold increases in baseline resistance appeared to be sufficient to compromise even dual protease inhibitor therapy. CONCLUSION: Baseline resistance to ritonavir or saquinavir or both was associated with a poor antiviral response. Our data suggest that the measurement of drug resistance may assist in optimizing antiretroviral therapy in the clinic.
OBJECTIVE: To determine whether baseline drug resistance assays could help to predict treatment failure with the protease inhibitor combination ritonavir-saquinavir. METHODS: Baseline HIV-1 drug resistance was determined for 76 consecutive patients who started treatment with the dual protease inhibitor combination ritonavir-saquinavir between September 1996 and June 1997 either alone or in combination with other antiviral agents. Resistance to 10 different antiviral agents was assessed by both phenotype (Virco Antivirogram) and genotype (Vircogen). RESULTS: Resistance inferred from viral genotype was similar to measured phenotypic resistance for both ritonavir and saquinavir (P<0.01). Baseline drug resistance phenotype was predictive of poor virological response to this dual protease inhibitor combination, despite the confounding effects of other antivirals. Patients were at least four times less likely to achieve a 0.5 log10 decrease in plasma HIV RNA viral load if their viral isolates were resistant to ritonavir or saquinavir. Patients classified as resistant to either drug using either method had median decreases in plasma viral load of 0.05 log10 HIV RNA copies/ml or less, compared to >0.8 log10 for those with sensitive virus. Patients resistant to both drugs never achieved plasma viral loads <100000 copies/ml. As little as fourfold increases in baseline resistance appeared to be sufficient to compromise even dual protease inhibitor therapy. CONCLUSION: Baseline resistance to ritonavir or saquinavir or both was associated with a poor antiviral response. Our data suggest that the measurement of drug resistance may assist in optimizing antiretroviral therapy in the clinic.
Authors: Niko Beerenwinkel; Barbara Schmidt; Hauke Walter; Rolf Kaiser; Thomas Lengauer; Daniel Hoffmann; Klaus Korn; Joachim Selbig Journal: Proc Natl Acad Sci U S A Date: 2002-06-11 Impact factor: 11.205
Authors: Rami Kantor; Robert W Shafer; Stephen Follansbee; Jonathan Taylor; David Shilane; Leo Hurley; Dong-Phuong Nguyen; David Katzenstein; W Jeffrey Fessel Journal: AIDS Date: 2004-07-23 Impact factor: 4.177
Authors: Reuben N Robbins; Claude A Mellins; Cheng-Shiun Leu; Jessica Rowe; Patricia Warne; Elaine J Abrams; Susan Witte; Dan J Stein; Robert H Remien Journal: AIDS Behav Date: 2015-06