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Nola Reporter

Thursday, December 19, 2024

New blood test can help doctors diagnose tuberculosis and monitor treatment

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Researchers at Tulane University School of Medicine have developed a  new highly sensitive blood test for tuberculosis (TB) that screens for  DNA fragments of the Mycobacterium tuberculosis bacteria that causes the deadly disease.

The test could give doctors a new tool to both quickly identify TB  and then gauge whether drug treatments are effective by monitoring  levels of DNA from the pathogen circulating through the bloodstream,  according to a new study published in the journal The Lancet Microbe.

Tuberculosis is now the second most deadly infectious disease in the  world, behind only COVID-19. In 2020, an estimated 10 million people  contracted TB and 1.5 million people died from it, according to the  World Health Organization. 

Most TB tests rely on screening sputum, a thick type of mucus from  the lungs. But collecting sputum from patients suspected of having TB  can be difficult, especially for children. TB can also be harder to  diagnose in immunocompromised HIV patients and others where the  infection migrates outside of the lungs into other areas of the body. In  these extrapulmonary cases, patients can have little bacteria in the  sputum, which leads to false negatives using current testing methods,  said lead study author Tony Hu, PhD, Weatherhead Presidential Chair in  Biotechnology Innovation at Tulane University.

“This assay may be a game-changer for TB diagnoses that not only  provides accurate diagnosis results but also has the potential to  predict disease progression and monitor treatment,” Hu said. “This will  help doctors rapidly intervene in treatment and reduce the risk of  death, especially for children living with HIV.”

The study evaluated a CRISPR-based assay that screened for cell-free DNA from live Mycobacterium tuberculosis bacilli.  The screening target is released into the bloodstream and cleared quite  rapidly, providing a real-time snapshot of active infection.

Researchers tested preserved blood samples from 73 adults and  children with presumptive TB and their asymptomatic household contacts  in Eswatini, Africa. 

The test identified adult TB with 96.4% sensitivity and 94.1%  specificity and pediatric TB with 83.3% sensitivity and 95.5%  specificity. (Sensitivity refers to how well a test can diagnose a  positive case, while specificity is a measure of a test’s accurately  determining a negative case.)

 

Researchers also tested 153 blood samples from a cohort of  hospitalized children in Kenya. These were HIV-positive patients who  were at high risk for TB and presented with at least one symptom of the  disease. The new test picked up all 13 confirmed TB cases and almost 85%  of unconfirmed cases, which were cases that were diagnosed due to  clinical symptoms and not existing gold standard testing methods.

The CRISPR-based test uses a small blood sample and can deliver results within two hours.

“We are particularly excited that the level of Mycobacterium tuberculosis cell-free  DNA in HIV-infected children began to decline within a month of  treatment, and most of the children's blood was cleared of the bacteria  DNA fragments after treatment, which means that CRISPR-TB has the  potential to monitor treatment and will give physicians the ability to  better treat worldwide TB infections,” Hu said.

The researchers have since adapted the assay to a rapid test platform  that can deliver results in 30 minutes without any special equipment.  Results would be viewable on a paper strip like a rapid COVID-19 test.  

“A highly accurate, rapid blood test that could be used anywhere  would benefit millions of people living in resource-limited areas with a  high TB burden,” Hu said.

The full results of the paper are online here.

Original source can be found here.

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