2018
DOI: 10.1128/iai.00776-17
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Toward Tuberculosis Vaccine Development: Recommendations for Nonhuman Primate Study Design

Abstract: Clinical trials of novel tuberculosis (TB) vaccines are expensive, while global resources for TB vaccine development are limited. Therefore, there is a need for robust and predictive preclinical data to support advancement of candidate vaccines into clinical trials. Here, we provide a rationale for using the nonhuman primate as an essential component of these efforts, as well as guidance to the TB community for standardizing experimental design and aligning endpoints to facilitate development of new TB vaccine… Show more

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Cited by 28 publications
(24 citation statements)
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“…Macaques are generally considered to be a highly representative model for modeling TB due to their physiological, pathological, and immunological similarity to humans [53][54][55][56] . In addition, the NHP model is considered the most reliable and translatable model to test for preclinical trials of vaccine candidates [57][58][59] due to its ability to get coinfected with both TB and SIV. As such they may also be highly suitable for testing new TB/HIV vaccine candidates that can protect against HIV-related TB.…”
Section: Nonhuman Primate Model For Tb/hiv Vaccine Evaluationmentioning
confidence: 99%
“…Macaques are generally considered to be a highly representative model for modeling TB due to their physiological, pathological, and immunological similarity to humans [53][54][55][56] . In addition, the NHP model is considered the most reliable and translatable model to test for preclinical trials of vaccine candidates [57][58][59] due to its ability to get coinfected with both TB and SIV. As such they may also be highly suitable for testing new TB/HIV vaccine candidates that can protect against HIV-related TB.…”
Section: Nonhuman Primate Model For Tb/hiv Vaccine Evaluationmentioning
confidence: 99%
“…Although it seems clear that immune responses measured in peripheral blood poorly reflect lung immunity, it is currently unknown whether even immune responses detectable in BAL or sputum samples are representative of tissue resident immunity. Here, the non-human primate model could provide invaluable insight by correlating the detection of protective responses in granulomas, lymph nodes, and lung parenchyma to those measurable in BAL (96). Furthermore, even if the essential value of animal models resides in understanding mechanistic correlates of protection at the site of infection, measurement of peripheral blood biomarkers that correlate with protective immune responses in the lung should also be prioritized to enable translation to humans and facilitate clinical development of TB vaccine candidates.…”
Section: Immune Compartmentalizationmentioning
confidence: 99%
“…This harmonization and standardization effort is underway within the Collaboration for TB Vaccine Development (CTVD), led by the Bill and Melinda Gates Foundation (BMGF). CTVD recommendations regarding NHP-based study design for TB vaccine development have recently been published 121 .…”
Section: Use Of Models In Translational Tb Vaccine Researchmentioning
confidence: 99%