Actiphage TB, a cutting-edge phage-based diagnostic, has revealed evidence that Mycobacterium tuberculosis can be detected in circulation during early infection, supporting the ‘Trojan horse’ theory of escape from the lung to evade detection. The research, performed by NIHR Leicester Biomedical Research Centre and reported in The Lancet Microbe, highlighted Actiphage’s ability to detect metabolically active M. tuberculosis within white blood cells. Furthermore, this was shown to associate with features of progressive infection, offering a potential solution to the urgent need for improved TB diagnostics.
The study, involving 20 household contacts, demonstrated that a positive baseline Actiphage test is associated with features of incipient tuberculosis requiring treatment (p=0⋅018). This finding underscores the diagnostic’s effectiveness in identifying early stages of TB.
Furthermore, Actiphage showed a significant association between M. tuberculosis DNA in the blood and progressive infection, providing crucial insights into disease trajectory.
While IGRAs (IFN-γ release assays) have high sensitivity for TB infection, Actiphage provides a pathogen-directed blood biomarker that enhances specificity in evaluating infection risk.
Phage-based diagnostic reveals insights
A notable strength of Actiphage, a phage-based diagnostic is its specific detection of metabolically active M. tuberculosis, surpassing culture-based approaches. This breakthrough diagnostic offers hope for better targeted intervention to prevent disease and limit onward transmission that are key components of WHO’s global strategy for eradicating TB.
Lead author Dr Pranabashis Haldar comments: “Using Actiphage, we found a significant association between Mtb DNA in the blood and progressive infection. This was consistent with the trajectory of inflammatory changes observed with PET-CT, visible before any abnormalities were detected at clinical screening.”
Read the paper in Lancet Microbe
PET-CT-guided characterisation of progressive, preclinical tuberculosis infection and its association with low-level circulating Mycobacterium tuberculosis DNA in household contacts in Leicester, UK: a prospective cohort study. Jee Whang Kim el al https://doi.org/10.1016/S2666-5247(23)00289-6
NIHR Leicester Biomedical Research Centre has also issued a press release.