Hatherill Mark, White Richard G, Hawn Thomas R
South African Tuberculosis Vaccine Initiative (SATVI), Division of Immunology, Department of Pathology, Institute of Infectious Disease & Molecular Medicine, University of Cape Town, Cape Town, South Africa.
TB Modelling Group, TB Centre - Centre for the Mathematical Modelling of Infectious Diseases, Faculty of Epidemiology and Population Health, London School of Hygiene & Tropical Medicine, London, United Kingdom.
Front Microbiol. 2020 Jan 30;10:3154. doi: 10.3389/fmicb.2019.03154. eCollection 2019.
(Mtb) kills more people worldwide than any single infectious pathogen, yet the only vaccine licensed against tuberculosis, Bacille Calmette Guerin (BCG) is approaching its centenary. Two recent advances in clinical tuberculosis vaccine development have invigorated the field. BCG revaccination of interferon-gamma release assay (IGRA) negative adolescents provided 45% protection against sustained Mtb infection defined by IGRA conversion; and the protein-subunit vaccine M72/AS01 provided 50% protection against progression from Mtb infection to tuberculosis disease in IGRA-positive adults. These findings provide encouraging evidence for pre-exposure and post-exposure approaches to vaccination against tuberculosis, both of which may be necessary to rapidly interrupt the cycle of Mtb transmission and sustain long-term impact on global tuberculosis control. New trials are needed to demonstrate efficacy of M72/AS01 with greater precision, in a wider age range, in diverse epidemic settings, and in populations that include Mtb-uninfected and HIV-infected persons. Modeling the impact of mass campaigns with M72/AS01 and other fast-follower vaccine candidates will be crucial to make the use case and demonstrate public health value for TB endemic countries. The size and scope of the next generation of efficacy trials, and the need to expand and accelerate the existing clinical development pipeline, will require public and private consortium funding and concerted political will.
在全球范围内,结核分枝杆菌(Mtb)致死的人数超过任何一种单一传染性病原体,然而唯一获得许可用于结核病的疫苗——卡介苗(BCG)即将迎来问世一百周年。临床结核病疫苗研发领域最近的两项进展为该领域注入了活力。对干扰素-γ释放检测(IGRA)呈阴性的青少年进行卡介苗再接种,可提供45%的保护,防止因IGRA转换定义的持续性Mtb感染;蛋白质亚单位疫苗M72/AS01在IGRA呈阳性的成年人中,可提供50%的保护,防止从Mtb感染进展为结核病。这些发现为结核病疫苗接种的暴露前和暴露后方法提供了令人鼓舞的证据,这两种方法对于迅速中断Mtb传播周期以及对全球结核病控制产生长期影响可能都是必要的。需要开展新的试验,以更精确地证明M72/AS01在更广泛的年龄范围、不同的流行环境以及包括未感染Mtb和感染HIV的人群中的疗效。模拟使用M72/AS01和其他快速跟进的候选疫苗进行大规模接种运动的影响,对于确定使用案例并证明对结核病流行国家的公共卫生价值至关重要。下一代疗效试验的规模和范围,以及扩大和加速现有临床开发流程的必要性,将需要公共和私人财团的资金以及一致的政治意愿。
