BACKGROUND: The Thai Phase III Trial of ALVAC-HIV and AIDSVAX B/E showed an estimated vaccine efficacy (VE) of 31% to prevent acquisition of human immunodeficiency virus (HIV). Here we evaluated the effect of vaccination on disease progression after infection. METHODS: CD4(+) T-cell counts and HIV viral load (VL) were measured serially. The primary analysis evaluated vaccine efficacy (VEP) as the percent reduction (vaccine vs placebo) in cumulative probability of a primary composite endpoint of clinical and CD4(+) count components at prespecified time points after infection. Secondary analyses of biomarker-based endpoints were assessed using marginal mean and linear mixed models. RESULTS: There were 61 endpoints in the modified intent-to-treat cohort (mITT; n = 114). There was no evidence for efficacy at 30, 42, 54, and 60 months in the mITT and per protocol (n = 90) cohorts. Estimated VEP (mITT) was15.8% (-21.9, 41.8) at 60 months postinfection. There was weak evidence of lower VL and higher CD4(+) count at 60 and 66 months in the vaccine group. Lower mucosal VL was observed among vaccine recipients, primarily in semen (P = .04). CONCLUSIONS: Vaccination did not affect the clinical course of HIV disease after infection. A potential vaccine effect on the genital mucosa warrants further study.
BACKGROUND: The Thai Phase III Trial of ALVAC-HIV and AIDSVAX B/E showed an estimated vaccine efficacy (VE) of 31% to prevent acquisition of human immunodeficiency virus (HIV). Here we evaluated the effect of vaccination on disease progression after infection. METHODS: CD4(+) T-cell counts and HIV viral load (VL) were measured serially. The primary analysis evaluated vaccine efficacy (VEP) as the percent reduction (vaccine vs placebo) in cumulative probability of a primary composite endpoint of clinical and CD4(+) count components at prespecified time points after infection. Secondary analyses of biomarker-based endpoints were assessed using marginal mean and linear mixed models. RESULTS: There were 61 endpoints in the modified intent-to-treat cohort (mITT; n = 114). There was no evidence for efficacy at 30, 42, 54, and 60 months in the mITT and per protocol (n = 90) cohorts. Estimated VEP (mITT) was15.8% (-21.9, 41.8) at 60 months postinfection. There was weak evidence of lower VL and higher CD4(+) count at 60 and 66 months in the vaccine group. Lower mucosal VL was observed among vaccine recipients, primarily in semen (P = .04). CONCLUSIONS: Vaccination did not affect the clinical course of HIV disease after infection. A potential vaccine effect on the genital mucosa warrants further study.
Authors: Shari N Gordon; Melvin N Doster; Rhonda C Kines; Brandon F Keele; Egidio Brocca-Cofano; Yongjun Guan; Poonam Pegu; Namal P M Liyanage; Monica Vaccari; Nicolas Cuburu; Christopher B Buck; Guido Ferrari; David Montefiori; Michael Piatak; Jeffrey D Lifson; Anastasia M Xenophontos; David Venzon; Marjorie Robert-Guroff; Barney S Graham; Douglas R Lowy; John T Schiller; Genoveffa Franchini Journal: J Immunol Date: 2014-11-14 Impact factor: 5.422
Authors: Bonnie Phillips; Koen K A Van Rompay; Jennifer Rodriguez-Nieves; Clarisse Lorin; Marguerite Koutsoukos; Mark Tomai; Christopher B Fox; Josh Eudailey; Maria Dennis; S Munir Alam; Michael Hudgens; Genevieve Fouda; Justin Pollara; Anthony Moody; Xiaoying Shen; Guido Ferrari; Sallie Permar; Kristina De Paris Journal: J Virol Date: 2018-09-26 Impact factor: 5.103