Researchers have developed a novel blood test that could transform how doctors diagnose and treat mysterious inflammatory conditions in children. The test, which analyzes cell-free RNA (cfRNA) in blood plasma, shows promise in distinguishing between various inflammatory syndromes that often present with similar symptoms, potentially leading to faster and more accurate diagnoses.
The study, published in the Proceedings of the National Academy of Sciences, focused on several inflammatory conditions that can be challenging to differentiate, including Kawasaki disease (KD), multisystem inflammatory syndrome in children (MIS-C), and various viral and bacterial infections. These conditions often share overlapping symptoms, making accurate diagnosis crucial for proper treatment.
The study, spearheaded by Iwijn De Vlaminck, associate professor of biomedical engineering at Cornell University, and lead author Conor Loy, an Ignite Fellow for New Ventures, used blood samples from 370 pediatric patients across four hospitals in the United States. The patients ranged from those with confirmed diagnoses of KD, MIS-C, viral infections, and bacterial infections to other hospitalized controls and healthy children.
Using advanced RNA sequencing techniques, the researchers analyzed the cfRNA profiles in these blood samples. Cell-free RNA are fragments of genetic material that circulate in the bloodstream, released by cells throughout the body. Unlike traditional blood tests that mainly reflect the immune response, cfRNA can provide insights into both the immune system’s activity and potential damage to various organs and tissues.
“When you analyze RNA in plasma, what you’re looking at is RNA from dying cells, and also RNA that’s been released from cells anywhere in the body,” Loy explains in a media release. “This gives you a huge advantage. In inflammatory conditions, there’s lots of cell death. Cells are, in some cases, exploding and their RNA gets released into plasma. By isolating that RNA and sequencing it, we can discover biomarkers for disease and backtrack where the RNA is coming from to measure cell death.”
The team’s analysis revealed distinct cfRNA signatures for different inflammatory conditions. Perhaps most notably, they developed a machine learning model that could differentiate between KD and MIS-C with a remarkable 98% accuracy. This is particularly significant because these two conditions can be especially difficult to distinguish clinically, yet require different treatments.
The researchers didn’t stop there. They expanded their approach to create a multi-class machine learning model capable of differentiating between KD, MIS-C, viral infections, and bacterial infections. This model achieved an impressive 80% accuracy in distinguishing between these four conditions.
Beyond just diagnosis, the cfRNA profiles also provided valuable information about organ involvement in these inflammatory conditions. The researchers found that cfRNA could indicate damage to specific organs like the liver, heart, and lungs, even in cases where traditional clinical tests didn’t show clear signs of injury.
“I think a lot of the novelty and the technical innovation, the engineering, is in the data analysis,” De Vlaminck says. “We’re able to quantify how much of the RNA is coming from different organs. How much is coming from the liver, or epithelial cells in the vascular system. By quantifying the sources, we can also learn about injury processes that are likely immune-related but happening in vascularized tissues.”
The potential implications of this research are far-reaching. Currently, diagnosing and differentiating between inflammatory conditions in children often relies on a combination of clinical symptoms, various blood tests, and sometimes invasive procedures. A single blood test that could accurately distinguish between these conditions and provide information about organ involvement could streamline the diagnostic process, lead to faster and more targeted treatments, and potentially improve outcomes for young patients.
Source: https://studyfinds.org/blood-test-mysterious-illness/?nab=0