Tuberculosis (TB) is a poverty-related disease which particularly affects vulnerable and underserved
populations. Community-based TB triage testing as an integral part of multi-disease health campaigns has the
potential to offer an impactful diagnostic strategy for people living in rural and semi-rural areas of high TB/HIV
The World Health Organization has developed target product profiles for community-based TB triage. CAD4TB,
an extensively validated digital chest x-ray analysis platform using deep-learning technology, and point-of-care
C-reactive protein blood test (POC-CRP) are two very promising diagnostic tools which meet the targets for TB
triage testing, and should thus be tested in large-scale randomised controlled clinical trials at community level.
The main objective of the proposed TB TRIAGE project is to assess the accuracy, impact and cost-effectiveness
of CAD4TB and POC-CRP as triage tools for community-based TB screening. To test these tools, we will
implement two trials in rural and semi-rural Lesotho and KwaZulu Natal, South Africa.
In the first trial -TB TRIAGE-ACCURACY- we will assess the diagnostic accuracy of POC-CRP and CAD4TB in
1400 presumptive TB patients and determine the optimal cut-offs for triage testing. In the second, communitybased
cluster-randomized trial -TB TRIAGE-RCT- we will assess the impact of CAD4TB and POC-CRP triage
tests on TB notification rate, diagnostic/treatment delays and patient outcomes, and we will perform health
economic and equity analyses based on the trial data. The triage tests will be used after symptom screening and
prior to confirmatory on-site Xpert MTB/RIF testing. The control arm follows current standard of care with referral
for confirmatory Xpert TB/RIF Ultra at the clinic in individuals presenting TB symptoms. The demonstration
phase design with 35000 participants has been chosen to generate high-level evidence to inform policy.
Further objectives include the validation of a novel instrument-free point-of-care CD4 test, the development of an
evidence-based clinical decision tool for TB in rural TB/HIV high-burden settings, the optimisation of CAD4TB,
e.g. on characterisation of non-TB abnormalities, and a survey of non-communicable and communicable
diseases in hard-to-reach communities. TB TRIAGE will build capacity for clinical trial conduct and scientific
leadership in Southern Africa.
The development of an accurate, robust and cost-effective TB community-based triage algorithm will improve
access to quality health care for hard-to-reach populations in Southern Africa and will ultimately contribute to
end the epidemic of TB, as targeted by Sustainable Development Goal 3.