OBJECTIVE: In Botswana, a 36-month course of isoniazid treatment of latent tuberculosis (TB) infection [isoniazid preventive therapy (IPT)] was superior to 6-month IPT in reducing TB and death in persons living with HIV (PLHIV), having positive tuberculin skin tests (TSTs) but not in those with negative TST. We examined the cost-effectiveness of IPT in Botswana, where antiretroviral therapy (ART) is widely available. DESIGN: Using a decision-analytic model, we determined the incremental cost-effectiveness of strategies for reducing TB and death in 10,000 PLHIV over 36 months. METHODS: IPT for 6 months and provision of ART if CD4 lymphocyte count <250 cells per microliter (2011 Botswana policy) was compared with 6 alternative strategies that varied the use of IPT, TST, and ART for CD4 count thresholds, including CD4 <350 and <500 cells per microliter. RESULTS: Botswana policy, 2011 was dominated by most other strategies. IPT of 36 months for TST-positive PLHIV with ART for CD4 <250 cells per microliter resulted in 120 fewer TB cases for an additional cost of $1612 per case averted and resulted in 80 fewer deaths for an additional $2418 per death averted compared with provision of 6-month IPT to TST-positive PLHIV who received ART for CD4 <250 cells per microliter, the next most effective strategy. Alternative strategies offered lower incremental effectiveness at higher cost. These findings remained consistent in sensitivity analyses. CONCLUSIONS: A strategy of treating PLHIV who have positive TST with 36-month IPT is more cost effective for reducing both TB and death compared with providing IPT without a TST, providing only 6-month IPT, or expanding ART eligibility without IPT.
OBJECTIVE: In Botswana, a 36-month course of isoniazid treatment of latent tuberculosis (TB) infection [isoniazid preventive therapy (IPT)] was superior to 6-month IPT in reducing TB anddeath in persons living with HIV (PLHIV), having positive tuberculin skin tests (TSTs) but not in those with negative TST. We examined the cost-effectiveness of IPT in Botswana, where antiretroviral therapy (ART) is widely available. DESIGN: Using a decision-analytic model, we determined the incremental cost-effectiveness of strategies for reducing TB anddeath in 10,000 PLHIV over 36 months. METHODS:IPTfor 6 months and provision of ART if CD4 lymphocyte count <250 cells per microliter (2011 Botswana policy) was compared with 6 alternative strategies that varied the use of IPT, TST, andARTforCD4 count thresholds, including CD4 <350 and <500 cells per microliter. RESULTS: Botswana policy, 2011 was dominated by most other strategies. IPT of 36 months forTST-positive PLHIV with ARTforCD4 <250 cells per microliter resulted in 120 fewer TB cases for an additional cost of $1612 per case averted and resulted in 80 fewer deaths for an additional $2418 per death averted compared with provision of 6-month IPT to TST-positive PLHIV who received ARTforCD4 <250 cells per microliter, the next most effective strategy. Alternative strategies offered lower incremental effectiveness at higher cost. These findings remained consistent in sensitivity analyses. CONCLUSIONS: A strategy of treating PLHIV who have positive TST with 36-month IPT is more cost effective for reducing both TB anddeath compared with providing IPT without a TST, providing only 6-month IPT, or expanding ART eligibility without IPT.
Authors: Brian G Williams; Reuben Granich; Kevin M De Cock; Philippe Glaziou; Abhishek Sharma; Christopher Dye Journal: Proc Natl Acad Sci U S A Date: 2010-10-25 Impact factor: 11.205
Authors: R K Shrestha; B Mugisha; R Bunnell; J Mermin; C Hitimana-Lukanika; R Odeke; P Madra; F Adatu; J M Blandford Journal: Int J Tuberc Lung Dis Date: 2006-06 Impact factor: 2.373
Authors: Julia del Amo; Santiago Moreno; Heiner C Bucher; Hansjakob Furrer; Roger Logan; Jonathan Sterne; Santiago Pérez-Hoyos; Inma Jarrín; Andrew Phillips; Sara Lodi; Ard van Sighem; Wolf de Wolf; Caroline Sabin; Loveleen Bansi; Amy Justice; Joseph Goulet; José M Miró; Elena Ferrer; Laurence Meyer; Rémonie Seng; Giota Toulomi; Panagiotis Gargalianos; Dominique Costagliola; Sophie Abgrall; Miguel A Hernán Journal: Clin Infect Dis Date: 2012-03-28 Impact factor: 9.079
Authors: W Were; D Moore; P Ekwaru; G Mwima; R Bunnell; F Kaharuza; G Rutherford; J Mermin Journal: Int J Tuberc Lung Dis Date: 2009-01 Impact factor: 2.373
Authors: I Pathmanathan; S Ahmedov; E Pevzner; G Anyalechi; S Modi; H Kirking; J S Cavanaugh Journal: Int J Tuberc Lung Dis Date: 2018-06-01 Impact factor: 2.373
Authors: Adriana Campa; Marianna K Baum; Hermann Bussmann; Sabrina Sales Martinez; Mansour Farahani; Erik van Widenfelt; Sikhulile Moyo; Joseph Makhema; Max Essex; Richard Marlink Journal: Nutr Diet Suppl Date: 2017-07-14
Authors: Grace A Shayo; Dereck Chitama; Candida Moshiro; Said Aboud; Muhammad Bakari; Ferdinand Mugusi Journal: BMC Public Health Date: 2017-07-19 Impact factor: 3.295