Quang Duy Pham1, David P Wilson2, Thuong Vu Nguyen3, Nhan Thi Do4, Lien Xuan Truong5, Long Thanh Nguyen6, Lei Zhang7. 1. Disease Modelling and Financing Program, Kirby Institute, University of New South Wales, Sydney, New South Wales, Australia Department for Disease Control and Prevention, Pasteur Institute, Ho Chi Minh City, Vietnam. 2. Disease Modelling and Financing Program, Kirby Institute, University of New South Wales, Sydney, New South Wales, Australia. 3. Department for Disease Control and Prevention, Pasteur Institute, Ho Chi Minh City, Vietnam. 4. Department of HIV Care and Treatment, Vietnam Administration of HIV/AIDS Control, Hanoi, Vietnam. 5. Department of Laboratory Analysis, Pasteur Institute, Ho Chi Minh City, Vietnam. 6. Ministry of Health, Hanoi, Vietnam. 7. Disease Modelling and Financing Program, Kirby Institute, University of New South Wales, Sydney, New South Wales, Australia Research Center for Public Health, School of Medicine, Tsinghua University, China Melbourne Sexual Health Centre, Alfred Health, Melbourne, Australia Central Clinical School, Faculty of Medicine, Nursing and Health Sciences, Monash University, Melbourne, VIC, Australia lzhang@kirby.unsw.edu.au.
Abstract
OBJECTIVES: The objective of this study was to investigate the potential epidemiological impact of viral load (VL) monitoring and its cost-effectiveness in Vietnam, where transmitted HIV drug resistance (TDR) prevalence has increased from <5% to 5%-15% in the past decade. METHODS: Using a population-based mathematical model driven by data from Vietnam, we simulated scenarios of various combinations of VL testing coverage, VL thresholds for second-line ART initiation and availability of HIV drug-resistance tests. We assessed the cost per disability-adjusted life year (DALY) averted for each scenario. RESULTS: Projecting expected ART scale-up levels, to approximately double the number of people on ART by 2030, will lead to an estimated 18 510 cases (95% CI: 9120-34 600 cases) of TDR and 55 180 cases (95% CI: 40 540-65 900 cases) of acquired drug resistance (ADR) in the absence of VL monitoring. This projection corresponds to a TDR prevalence of 16% (95% CI: 11%-24%) and ADR of 18% (95% CI: 15%-20%). Annual or biennial VL monitoring with 30% coverage is expected to relieve 12%-31% of TDR (2260-5860 cases), 25%-59% of ADR (9620-22 650 cases), 2%-6% of HIV-related deaths (360-880 cases) and 19 270-51 400 DALYs during 2015-30. The 30% coverage of VL monitoring is estimated to cost US$4848-5154 per DALY averted. The projected additional cost for implementing this strategy is US$105-268 million over 2015-30. CONCLUSIONS: Our study suggests that a programmatically achievable 30% coverage of VL monitoring can have considerable benefits for individuals and leads to population health benefits by reducing the overall national burden of HIV drug resistance. It is marginally cost-effective according to common willingness-to-pay thresholds.
OBJECTIVES: The objective of this study was to investigate the potential epidemiological impact of viral load (VL) monitoring and its cost-effectiveness in Vietnam, where transmitted HIV drug resistance (TDR) prevalence has increased from <5% to 5%-15% in the past decade. METHODS: Using a population-based mathematical model driven by data from Vietnam, we simulated scenarios of various combinations of VL testing coverage, VL thresholds for second-line ART initiation and availability of HIV drug-resistance tests. We assessed the cost per disability-adjusted life year (DALY) averted for each scenario. RESULTS: Projecting expected ART scale-up levels, to approximately double the number of people on ART by 2030, will lead to an estimated 18 510 cases (95% CI: 9120-34 600 cases) of TDR and 55 180 cases (95% CI: 40 540-65 900 cases) of acquired drug resistance (ADR) in the absence of VL monitoring. This projection corresponds to a TDR prevalence of 16% (95% CI: 11%-24%) and ADR of 18% (95% CI: 15%-20%). Annual or biennial VL monitoring with 30% coverage is expected to relieve 12%-31% of TDR (2260-5860 cases), 25%-59% of ADR (9620-22 650 cases), 2%-6% of HIV-related deaths (360-880 cases) and 19 270-51 400 DALYs during 2015-30. The 30% coverage of VL monitoring is estimated to cost US$4848-5154 per DALY averted. The projected additional cost for implementing this strategy is US$105-268 million over 2015-30. CONCLUSIONS: Our study suggests that a programmatically achievable 30% coverage of VL monitoring can have considerable benefits for individuals and leads to population health benefits by reducing the overall national burden of HIV drug resistance. It is marginally cost-effective according to common willingness-to-pay thresholds.
Authors: Paul K Drain; Jienchi Dorward; Andrew Bender; Lorraine Lillis; Francesco Marinucci; Jilian Sacks; Anna Bershteyn; David S Boyle; Jonathan D Posner; Nigel Garrett Journal: Clin Microbiol Rev Date: 2019-05-15 Impact factor: 26.132
Authors: Anna Maria Niewiadomska; Bamini Jayabalasingham; Jessica C Seidman; Lander Willem; Bryan Grenfell; David Spiro; Cecile Viboud Journal: BMC Med Date: 2019-04-24 Impact factor: 8.775
Authors: Natalie A Blackburn; Vivian F Go; Quynh Bui; Heidi Hutton; Radhika P Tampi; Teerada Sripaipan; Tran Viet Ha; Carl A Latkin; Shelley Golden; Carol Golin; Geetanjali Chander; Constantine Frangakis; Nisha Gottfredson; David W Dowdy Journal: AIDS Behav Date: 2021-01-03