Scientists have shown a blood test could predict the onset of tuberculosis (TB) three to six months before people become unwell, a finding which could help better target antibiotics and save countless lives.
In the study, published in Lancet Respiratory Medicine, researchers sought to identify which, if any, gene expression signatures in blood could be used to predict the disease at a very early stage and before symptoms arise.
Gene expression signatures are single or combined measurements of levels of specific gene products and are being tested in a range of diseases to aid diagnosis, prognosis or prediction of the response to treatment. Some are already being used to support the management of cancers, but none have reached the clinic in infectious diseases such as TB.
Lead author of the study Dr Rishi Gupta (UCL Institute for Global Health) said: “The emergence of gene expression signature tests, which can aid diagnosis and early treatment, provides real hope for the management of infectious diseases. In this study we identify multiple signatures to identify the onset of tuberculosis, which is extremely encouraging, potentially providing multiple targets for early detection.
“Further development of these tests could help identify people who will benefit most from preventative antibiotic treatment, in order to reduce the occurrence of tuberculosis – a disease which causes the greatest number of deaths worldwide due to any single infection. The availability of multiple signatures will help to broaden access to these tests.”
TB is a disease caused by a bacteria (Mycobacterium tuberculosis) that most often affects the lungs. TB is spread from person to person through the air. When people with lung TB cough, sneeze or spit, they propel the TB germs into the air. Another person needs to inhale only a few of these germs to become infected.
Worldwide, TB is one of the top 10 causes of death and in 2018 1.5 million died from the disease.
Corresponding author for the study, Professor Mahdad Noursadeghi (UCL Infection & Immunity), said: “About one-quarter of the world's population is thought to have been infected with the bacteria that cause TB. The majority of these individuals remain well and cannot transmit the disease.
“However, we currently do not know which people are most likely to develop TB disease after being infected. If we can identify these individuals, we can treat their infection more easily and prevent it from spreading to others.
“Our findings establish the gene signatures in blood which show most promise for identifying people who are at risk of disease. Future development of a blood test based on these findings could make an important contribution to efforts to reduce the impact and spread of this deadly infection.”