Hermans Sabine M, Grant Alison D, Chihota Violet, Lewis James J, Vynnycky Emilia, Churchyard Gavin J, Fielding Katherine L
TB Centre, London School of Hygiene & Tropical Medicine, London, UK.
Department of Global Health, Academic Medical Center, University of Amsterdam, Amsterdam Institute for Global Health and Development, Amsterdam, The Netherlands.
BMC Med. 2016 Mar 23;14:45. doi: 10.1186/s12916-016-0589-3.
The durability of isoniazid preventive therapy (IPT) in preventing tuberculosis (TB) is limited in high-prevalence settings. The underlying mechanism (reactivation of persistent latent TB or reinfection) is not known. We aimed to investigate the timing of TB incidence during and after IPT and associated risk factors in a very high TB and HIV-prevalence setting, and to compare the observed rate with a modelled estimate of TB incidence rate after IPT due to reinfection.
In a post-hoc analysis of a cluster-randomized trial of community-wide IPT among South African gold miners, all intervention arm participants that were dispensed IPT for at least one of the intended 9 months were included. An incident TB case was defined as any participant with a positive sputum smear or culture, or with a clinical TB diagnosis assigned by a senior study clinician. Crude TB incidence rates were calculated during and after IPT, overall and by follow-up time. HIV status was not available. Multivariable Cox regression was used to analyse risk factors by follow-up time after IPT. Estimates from a published mathematical model of trial data were used to calculate the average reinfection TB incidence in the first year after IPT.
Among 18,520 participants (96% male, mean age 41 years, median follow-up 2.1 years), 708 developed TB. The TB incidence rate during the intended IPT period was 1.3/100 person-years (pyrs; 95% confidence interval (CI), 1.0-1.6) and afterwards 2.3/100 pyrs (95% CI, 1.9-2.7). TB incidence increased within 6 months followed by a stable rate over time. There was no evidence for changing risk factors for TB disease over time after miners stopped IPT. The average TB incidence rate attributable to reinfection in the first year was estimated at 1.3/100 pyrs, compared to an observed rate of 2.2/100 pyrs (95% CI, 1.8-2.7).
The durability of protection by IPT was lost within 6-12 months in this setting with a high HIV prevalence and a high annual risk of M. tuberculosis infection. The observed rate was higher than the modelled rate, suggesting that reactivation of persistent latent infection played a role in the rapid return to baseline TB incidence.
在结核病高发地区,异烟肼预防性治疗(IPT)预防结核病(TB)的效果持久性有限。其潜在机制(潜伏性结核持续感染再激活或再感染)尚不清楚。我们旨在调查在结核病和艾滋病毒感染率非常高的环境中,IPT期间及之后结核病发病的时间以及相关危险因素,并将观察到的发病率与IPT后因再感染导致的结核病发病率的模型估计值进行比较。
在一项针对南非金矿工人社区广泛IPT的整群随机试验的事后分析中,纳入了所有在预期的9个月中至少接受了1个月IPT治疗的干预组参与者。结核病发病病例定义为任何痰涂片或培养呈阳性,或由资深研究临床医生做出临床结核病诊断的参与者。计算IPT期间及之后总体和按随访时间划分的结核病粗发病率。未获取艾滋病毒感染状况。使用多变量Cox回归分析IPT后随访时间的危险因素。根据已发表的试验数据数学模型估计值计算IPT后第一年的平均再感染结核病发病率。
在18520名参与者中(96%为男性,平均年龄41岁,中位随访时间2.1年),708人患结核病。预期IPT期间的结核病发病率为1.3/100人年(95%置信区间(CI),1.0 - 1.6),之后为2.3/100人年(95%CI,1.9 - 2.7)。结核病发病率在6个月内上升,随后随时间保持稳定。在矿工停止IPT后,没有证据表明结核病的危险因素随时间变化。第一年因再感染导致的平均结核病发病率估计为1.3/100人年,而观察到的发病率为2.2/100人年(95%CI,1.8 - 2.7)。
在这种艾滋病毒感染率高且结核分枝杆菌年感染风险高的环境中,IPT提供的保护作用在6 - 12个月内消失。观察到的发病率高于模型估计值,这表明潜伏感染的再激活在结核病发病率迅速恢复到基线水平中起了作用。
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