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The researchers found 100 percent agreement between the novel method and the clinical gold standard of blood culture.
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New Rapid Detection of Bacteria in Pediatric Blood Samples

Researchers are testing a new technology to diagnose bacteremia in newborn babies

American Society for Microbiology
Published:Jun 17, 2024
|2 min read
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Atlanta, GA — June 14, 2023 — Researchers have demonstrated that a new technology could quickly and accurately diagnose bloodstream infections. The study findings were reported at ASM Microbe, the annual meeting of the American Society for Microbiology.

“There is a need to be able to rapidly and accurately diagnose bacteremia in newborn babies. They are especially susceptible to long-term morbidities and mortality the longer they go without treatment, or even with inaccurate treatment for bloodstream infections or sepsis,” said presenting study author April Aralar, PhD, a postdoctoral scholar at the University of California, San Diego, in a recent statement

“Therefore, we felt that it was of the utmost importance to be able to have a diagnostic that could work with what was available for neonates: that is, a small amount of blood, a small amount of bacteria, and a small amount of time to get the diagnosis.”

In the new study, researchers set out to test a novel technology called u-dHRM (universal digital high-resolution melt) using pediatric blood samples from Rady Children's Hospital in San Diego. 

Researchers took 17 blood samples that were already tested using blood culture, the clinical standard diagnostic test, and subsequently tested the blood with the new platform.

The researchers found 100 percent agreement between the novel method and the clinical gold standard of blood culture, and the new technology delivered the results much faster. 

“Our test only took six hours from start to finish, whereas blood culture takes anywhere from fifteen hours to five days to get a result,” Aralar said.

Aralar said the findings are encouraging and that the method may be a new way of quickly and accurately diagnosing bloodstream infections in newborns. It could additionally be applied to children and adults.

“Next, we hope to do a prospective clinical trial across multiple clinical centers and hospitals to test our method across more patients and different populations. Hopefully we can deploy this technology to more hospitals and have point of care diagnostics for babies and children more widely,” Aralar said.