There are 2 clinical trials
The objective of antiretroviral therapy (ART) is the maintenance of HIV viral suppression, the optimal condition to prevent disease progression, to optimize immune restoration, to prevent the development of viral resistance and to reduce viral transmission. Antiretroviral therapy has to be maintained long life over decades in the absence of strategies for HIV cure. This is why the long-term cumulative toxicity of ARV drugs is a major issue. Indeed as a consequence of potent ART strategies, in 2011 over 88% of patients on ART in the French Hospital database (ANRS CO4 FHDH) achieved viral suppression with HIV-RNA plasma viral load < 50 copies/mL and nearly 60% had CD4 > 500/mm3. As a consequence of massive reduction of mortality and morbidity related to HIV, infected patients are aging with 40% of patients over 50 years of age in the ANRS CO4 FHDH. The current standard-of-care for antiretroviral therapy consists in a triple drug combination with two nucleoside reverse transcriptase inhibitors (NRTIs) plus either a non-nucleoside reverse transcriptase inhibitor (NNRTI), a protease inhibitor (PI), or an integrase inhibitor (INSTI). NRTIs and PIs have been associated to cumulative long-term toxicity such as bone and renal disorders related to tenofovir and increased cardio-vascular risk with PIs. In general population, aging is associated with well-known comorbidities such as bone demineralization, increased incidence of cardio or cerebrovascular disease, diabetes, renal dysfunction. HIV infected patients are at a greater risk for such abnormalities. Another crucial concern is the high probability of drug-drug interactions in HIV-infected patients, between ART and comedications. Alternative strategies are needed, which must address the following questions: how to maintain the control of HIV viral replication while minimizing the occurrence of long-term clinical and metabolic complications, and minimizing the risk of drug-drug interactions? This study is an open label, randomized, switch study over 96 weeks in which virally suppressed patients on a stable combined ART regimen will be randomized (2:1) to an immediate switch to doravirine/raltegravir (immediate switch group) or to the maintaining of their current ART followed by a switch to doravirine/raltegravir at W48 (delayed switch group). Patients will be followed during 96 weeks.
- Mutations associated to doravirine resistance are: V106A/M, Y188L, G190E/S, M230L, F227C, at least 2 among: A98G, L100I, K101E, V106I, E138K, Y181C/V, G190A or H221Y - Mutations associated to raltegravir resistance are: T66A/K, E92Q, G118R, F121Y, G140A/S Y143A/C/G/H/R/S, Q148E/G/H/K/R, V151L, N155H/S/T, E157Q, S230R, R263K, L74 F/I + V75I. --- V106A --- --- Y188L --- --- G190E --- --- M230L --- --- F227C --- --- A98G --- --- L100I --- --- K101E --- --- V106I --- --- E138K --- --- Y181C --- --- G190A --- --- H221Y --- --- T66A ---
Description: Measure of plasma viral load assessed by RNA quantification using COBA 6800 system (Roche)
Measure: Measure the virological efficacy at week 48 of once daily doravirine plus raltegravir dual therapy to assess the effectiveness of the dual therapy DORAL to maintain the virological success to W48 Time: 48 weeksThis study will evaluate the potential drug-drug interactions between dolutegravir (DTG) and steady state rifapentine (RPT) when RPT is given with isoniazid (INH) daily for 4 weeks (1HP) as part of treatment for latent TB infection (LTBI) in HIV-1 and LTBI co-infected individuals.
This includes the following INSTI mutations: Q148 substitutions, T66A, L74I/M, E138A/K/T, G140S/A/C, Y143R/C/H, E157Q, G163S/E/K/Q, G193E/R, or N155H. --- T66A ---
Description: Graded according to the Division of AIDS Table for Grading the Severity of Adult and Pediatric Adverse Events (DAIDS AE Grading Table), corrected Version 2.1, July 2017
Measure: Proportion of participants with all adverse events meeting the reporting criteria in the study protocol during administration of DTG with 1HP, by arm Time: Measured through Week 4